/*
  Copyright (c) 2002, 2012, Oracle and/or its affiliates. All rights reserved.

  The MySQL Connector/J is licensed under the terms of the GPLv2
  <http://www.gnu.org/licenses/old-licenses/gpl-2.0.html>, like most MySQL Connectors.
  There are special exceptions to the terms and conditions of the GPLv2 as it is applied to
  this software, see the FLOSS License Exception
  <http://www.mysql.com/about/legal/licensing/foss-exception.html>.

  This program is free software; you can redistribute it and/or modify it under the terms
  of the GNU General Public License as published by the Free Software Foundation; version 2
  of the License.

  This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
  without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
  See the GNU General Public License for more details.

  You should have received a copy of the GNU General Public License along with this
  program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth
  Floor, Boston, MA 02110-1301  USA
 
 */
package com.mysql.jdbc;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.ObjectOutputStream;
import java.io.Reader;
import java.io.StringReader;
import java.io.UnsupportedEncodingException;
import java.lang.reflect.Constructor;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.net.URL;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.nio.charset.CharsetEncoder;
import java.sql.Array;
import java.sql.Clob;
import java.sql.DatabaseMetaData;
import java.sql.Date;
import java.sql.ParameterMetaData;
import java.sql.Ref;
import java.sql.SQLException;
import java.sql.Time;
import java.sql.Timestamp;
import java.sql.Types;
import java.text.ParsePosition;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Locale;
import java.util.TimeZone;

import com.mysql.jdbc.exceptions.MySQLStatementCancelledException;
import com.mysql.jdbc.exceptions.MySQLTimeoutException;
import com.mysql.jdbc.profiler.ProfilerEvent;

/**
 * A SQL Statement is pre-compiled and stored in a PreparedStatement object.
 * This object can then be used to efficiently execute this statement multiple
 * times.
 * 
 * <p>
 * <B>Note:</B> The setXXX methods for setting IN parameter values must specify
 * types that are compatible with the defined SQL type of the input parameter.
 * For instance, if the IN parameter has SQL type Integer, then setInt should be
 * used.
 * </p>
 * 
 * <p>
 * If arbitrary parameter type conversions are required, then the setObject
 * method should be used with a target SQL type.
 * </p>
 * 
 * @author Mark Matthews
 * @version $Id: PreparedStatement.java,v 1.1.2.1 2005/05/13 18:58:38 mmatthews
 *          Exp $
 * 
 * @see java.sql.ResultSet
 * @see java.sql.PreparedStatement
 */
public class PreparedStatement extends com.mysql.jdbc.StatementImpl implements
		java.sql.PreparedStatement {
	private static final Constructor<?> JDBC_4_PSTMT_2_ARG_CTOR;
	private static final Constructor<?> JDBC_4_PSTMT_3_ARG_CTOR;
	private static final Constructor<?> JDBC_4_PSTMT_4_ARG_CTOR;
	
	static {
		if (Util.isJdbc4()) {
			try {
				JDBC_4_PSTMT_2_ARG_CTOR = Class.forName(
						"com.mysql.jdbc.JDBC4PreparedStatement")
						.getConstructor(
								new Class[] { MySQLConnection.class, String.class });
				JDBC_4_PSTMT_3_ARG_CTOR = Class.forName(
						"com.mysql.jdbc.JDBC4PreparedStatement")
						.getConstructor(
								new Class[] { MySQLConnection.class, String.class,
										String.class });
				JDBC_4_PSTMT_4_ARG_CTOR = Class.forName(
						"com.mysql.jdbc.JDBC4PreparedStatement")
						.getConstructor(
								new Class[] { MySQLConnection.class, String.class,
										String.class, ParseInfo.class });
			} catch (SecurityException e) {
				throw new RuntimeException(e);
			} catch (NoSuchMethodException e) {
				throw new RuntimeException(e);
			} catch (ClassNotFoundException e) {
				throw new RuntimeException(e);
			}
		} else {
			JDBC_4_PSTMT_2_ARG_CTOR = null;
			JDBC_4_PSTMT_3_ARG_CTOR = null;
			JDBC_4_PSTMT_4_ARG_CTOR = null;
		}
	}
	
	public class BatchParams {
		public boolean[] isNull = null;

		public boolean[] isStream = null;

		public InputStream[] parameterStreams = null;

		public byte[][] parameterStrings = null;

		public int[] streamLengths = null;

		BatchParams(byte[][] strings, InputStream[] streams,
				boolean[] isStreamFlags, int[] lengths, boolean[] isNullFlags) {
			//
			// Make copies
			//
			this.parameterStrings = new byte[strings.length][];
			this.parameterStreams = new InputStream[streams.length];
			this.isStream = new boolean[isStreamFlags.length];
			this.streamLengths = new int[lengths.length];
			this.isNull = new boolean[isNullFlags.length];
			System.arraycopy(strings, 0, this.parameterStrings, 0,
					strings.length);
			System.arraycopy(streams, 0, this.parameterStreams, 0,
					streams.length);
			System.arraycopy(isStreamFlags, 0, this.isStream, 0,
					isStreamFlags.length);
			System.arraycopy(lengths, 0, this.streamLengths, 0, lengths.length);
			System
					.arraycopy(isNullFlags, 0, this.isNull, 0,
							isNullFlags.length);
		}
	}

	class EndPoint {
		int begin;

		int end;

		EndPoint(int b, int e) {
			this.begin = b;
			this.end = e;
		}
	}

	class ParseInfo {
		char firstStmtChar = 0;

		boolean foundLimitClause = false;

		boolean foundLoadData = false;

		long lastUsed = 0;

		int statementLength = 0;

		int statementStartPos = 0;

		boolean canRewriteAsMultiValueInsert = false;
		
		byte[][] staticSql = null;

		boolean isOnDuplicateKeyUpdate = false;
		
		int locationOfOnDuplicateKeyUpdate = -1;
		
		String valuesClause;
		
		boolean parametersInDuplicateKeyClause = false;
		
		/**
		 * Represents the "parsed" state of a client-side
		 * prepared statement, with the statement broken up into
		 * it's static and dynamic (where parameters are bound) 
		 * parts.
		 */
		ParseInfo(String sql, MySQLConnection conn,
				java.sql.DatabaseMetaData dbmd, String encoding,
				SingleByteCharsetConverter converter) throws SQLException {
			this(sql, conn, dbmd, encoding, converter, true);
		}
		
		public ParseInfo(String sql, MySQLConnection conn,
				java.sql.DatabaseMetaData dbmd, String encoding,
				SingleByteCharsetConverter converter, boolean buildRewriteInfo) throws SQLException {
			try {
				if (sql == null) {
					throw SQLError.createSQLException(Messages
							.getString("PreparedStatement.61"), //$NON-NLS-1$
							SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
				}

				this.locationOfOnDuplicateKeyUpdate = getOnDuplicateKeyLocation(sql);
				this.isOnDuplicateKeyUpdate = this.locationOfOnDuplicateKeyUpdate != -1;
				
				this.lastUsed = System.currentTimeMillis();

				String quotedIdentifierString = dbmd.getIdentifierQuoteString();

				char quotedIdentifierChar = 0;

				if ((quotedIdentifierString != null)
						&& !quotedIdentifierString.equals(" ") //$NON-NLS-1$
						&& (quotedIdentifierString.length() > 0)) {
					quotedIdentifierChar = quotedIdentifierString.charAt(0);
				}

				this.statementLength = sql.length();

				ArrayList<int[]> endpointList = new ArrayList<int[]>();
				boolean inQuotes = false;
				char quoteChar = 0;
				boolean inQuotedId = false;
				int lastParmEnd = 0;
				int i;

				int stopLookingForLimitClause = this.statementLength - 5;

				this.foundLimitClause = false;

				boolean noBackslashEscapes = connection.isNoBackslashEscapesSet();

				// we're not trying to be real pedantic here, but we'd like to 
				// skip comments at the beginning of statements, as frameworks
				// such as Hibernate use them to aid in debugging

				statementStartPos = findStartOfStatement(sql);

				for (i = statementStartPos; i < this.statementLength; ++i) {
					char c = sql.charAt(i);

					if ((this.firstStmtChar == 0) && Character.isLetter(c)) {
						// Determine what kind of statement we're doing (_S_elect,
						// _I_nsert, etc.)
						this.firstStmtChar = Character.toUpperCase(c);
					}

					if (!noBackslashEscapes &&
							c == '\\' && i < (this.statementLength - 1)) {
						i++;
						continue; // next character is escaped
					}

					// are we in a quoted identifier?
					// (only valid when the id is not inside a 'string')
					if (!inQuotes && (quotedIdentifierChar != 0)
							&& (c == quotedIdentifierChar)) {
						inQuotedId = !inQuotedId;
					} else if (!inQuotedId) {
						//	only respect quotes when not in a quoted identifier

						if (inQuotes) {
							if (((c == '\'') || (c == '"')) && c == quoteChar) {
								if (i < (this.statementLength - 1) && sql.charAt(i + 1) == quoteChar) {
									i++; 
									continue; // inline quote escape
								}

								inQuotes = !inQuotes;
								quoteChar = 0;
							} else if (((c == '\'') || (c == '"')) && c == quoteChar) {
								inQuotes = !inQuotes;
								quoteChar = 0;
							}
						} else {
							if (c == '#'
								|| (c == '-' && (i + 1) < this.statementLength && sql
										.charAt(i + 1) == '-')) {
								// run out to end of statement, or newline,
								// whichever comes first
								int endOfStmt = this.statementLength - 1;

								for (; i < endOfStmt; i++) {
									c = sql.charAt(i);

									if (c == '\r' || c == '\n') {
										break;
									}
								}

								continue;
							} else if (c == '/' && (i + 1) < this.statementLength) {
								// Comment?
								char cNext = sql.charAt(i + 1);

								if (cNext == '*') {
									i+= 2;

									for (int j = i; j < this.statementLength; j++) {
										i++;
										cNext = sql.charAt(j);

										if (cNext == '*' && (j + 1) < this.statementLength) {
											if (sql.charAt(j + 1) == '/') {
												i++;

												if (i < this.statementLength) {
													c = sql.charAt(i);
												}

												break; // comment done
											}
										}
									}
								}
							} else if ((c == '\'') || (c == '"')) {
								inQuotes = true;
								quoteChar = c;
							}
						}
					}

					if ((c == '?') && !inQuotes && !inQuotedId) {
						endpointList.add(new int[] { lastParmEnd, i });
						lastParmEnd = i + 1;
						
						if (isOnDuplicateKeyUpdate && i > locationOfOnDuplicateKeyUpdate) {
							parametersInDuplicateKeyClause = true;
						}
					}

					if (!inQuotes && !inQuotedId && (i < stopLookingForLimitClause)) {
						if ((c == 'L') || (c == 'l')) {
							char posI1 = sql.charAt(i + 1);

							if ((posI1 == 'I') || (posI1 == 'i')) {
								char posM = sql.charAt(i + 2);

								if ((posM == 'M') || (posM == 'm')) {
									char posI2 = sql.charAt(i + 3);

									if ((posI2 == 'I') || (posI2 == 'i')) {
										char posT = sql.charAt(i + 4);

										if ((posT == 'T') || (posT == 't')) {

											boolean hasPreviosIdChar = false;
											boolean hasFollowingIdChar = false;
											if (i>statementStartPos && StringUtils.isValidIdChar(sql.charAt(i - 1))) {
												hasPreviosIdChar = true;
											}
											if (i + 5 < this.statementLength && StringUtils.isValidIdChar(sql.charAt(i + 5))) {
												hasFollowingIdChar = true;
											}
											if (!hasPreviosIdChar && !hasFollowingIdChar) {
												foundLimitClause = true;
											}
										}
									}
								}
							}
						}
					}
				}

				if (this.firstStmtChar == 'L') {
					if (StringUtils.startsWithIgnoreCaseAndWs(sql, "LOAD DATA")) { //$NON-NLS-1$
						this.foundLoadData = true;
					} else {
						this.foundLoadData = false;
					}
				} else {
					this.foundLoadData = false;
				}

				endpointList.add(new int[] { lastParmEnd, this.statementLength });
				this.staticSql = new byte[endpointList.size()][];
				char[] asCharArray = sql.toCharArray();

				for (i = 0; i < this.staticSql.length; i++) {
					int[] ep = endpointList.get(i);
					int end = ep[1];
					int begin = ep[0];
					int len = end - begin;

					if (this.foundLoadData) {
						String temp = new String(asCharArray, begin, len);
						this.staticSql[i] = StringUtils.getBytes(temp);
					} else if (encoding == null) {
						byte[] buf = new byte[len];

						for (int j = 0; j < len; j++) {
							buf[j] = (byte) sql.charAt(begin + j);
						}

						this.staticSql[i] = buf;
					} else {
						if (converter != null) {
							this.staticSql[i] = StringUtils.getBytes(sql,
									converter, encoding, connection
									.getServerCharacterEncoding(), begin,
									len, connection.parserKnowsUnicode(), getExceptionInterceptor());
						} else {
							String temp = new String(asCharArray, begin, len);

							this.staticSql[i] = StringUtils.getBytes(temp,
									encoding, connection
									.getServerCharacterEncoding(),
									connection.parserKnowsUnicode(), conn, getExceptionInterceptor());
						}
					}
				}
			} catch (StringIndexOutOfBoundsException oobEx) {
				SQLException sqlEx = new SQLException("Parse error for " + sql);
				sqlEx.initCause(oobEx);

				throw sqlEx;
			}
			
			
			if (buildRewriteInfo) {
				this.canRewriteAsMultiValueInsert = PreparedStatement
						.canRewrite(sql, this.isOnDuplicateKeyUpdate,
								this.locationOfOnDuplicateKeyUpdate,
								this.statementStartPos) && !this.parametersInDuplicateKeyClause;

				if (this.canRewriteAsMultiValueInsert
						&& conn.getRewriteBatchedStatements()) {
					buildRewriteBatchedParams(sql, conn, dbmd, encoding,
							converter);
				}
			}
		}

		private ParseInfo batchHead;

		private ParseInfo batchValues;

		private ParseInfo batchODKUClause;

		private void buildRewriteBatchedParams(String sql, MySQLConnection conn,
				DatabaseMetaData metadata, String encoding,
				SingleByteCharsetConverter converter) throws SQLException {
			this.valuesClause = extractValuesClause(sql);
			String odkuClause = isOnDuplicateKeyUpdate ? sql
					.substring(locationOfOnDuplicateKeyUpdate) : null;

			String headSql = null;

			if (isOnDuplicateKeyUpdate) {
				headSql = sql.substring(0, locationOfOnDuplicateKeyUpdate);
			} else {
				headSql = sql;
			}

			this.batchHead = new ParseInfo(headSql, conn, metadata, encoding,
					converter, false);
			this.batchValues = new ParseInfo("," + this.valuesClause, conn,
					metadata, encoding, converter, false);
			this.batchODKUClause = null;

			if (odkuClause != null && odkuClause.length() > 0) {
				this.batchODKUClause = new ParseInfo("," + this.valuesClause
						+ " " + odkuClause, conn, metadata, encoding,
						converter, false);
			}
		}

		private String extractValuesClause(String sql) throws SQLException {
			String quoteCharStr = connection.getMetaData()
					.getIdentifierQuoteString();

			int indexOfValues = -1;
			int valuesSearchStart = statementStartPos;

			while (indexOfValues == -1) {
				if (quoteCharStr.length() > 0) {
					indexOfValues = StringUtils.indexOfIgnoreCaseRespectQuotes(
							valuesSearchStart,
							originalSql, "VALUES", quoteCharStr.charAt(0), false);
				} else {
					indexOfValues = StringUtils.indexOfIgnoreCase(valuesSearchStart, 
							originalSql,
							"VALUES");
				}
				
				if (indexOfValues > 0) {
					/* check if the char immediately preceding VALUES may be part of the table name */
					char c = originalSql.charAt(indexOfValues - 1);
					if(!(Character.isWhitespace(c) || c == ')' || c == '`')){
						valuesSearchStart = indexOfValues + 6;
						indexOfValues = -1;
					} else {
						/* check if the char immediately following VALUES may be whitespace or open parenthesis */
						c = originalSql.charAt(indexOfValues + 6);
						if(!(Character.isWhitespace(c) || c == '(')){
							valuesSearchStart = indexOfValues + 6;
							indexOfValues = -1;
						}
					}
				} else {
					break;
				}
			}

			if (indexOfValues == -1) {
				return null;
			}

			int indexOfFirstParen = sql.indexOf('(', indexOfValues + 6);

			if (indexOfFirstParen == -1) {
				return null;
			}

			int endOfValuesClause = sql.lastIndexOf(')');

			if (endOfValuesClause == -1) {
				return null;
			}

			if (isOnDuplicateKeyUpdate) {
				endOfValuesClause = this.locationOfOnDuplicateKeyUpdate - 1;
			}

			return sql.substring(indexOfFirstParen, endOfValuesClause + 1);
		}

		/**
		 * Returns a ParseInfo for a multi-value INSERT for a batch of size numBatch (without parsing!).
		 */
		synchronized ParseInfo getParseInfoForBatch(int numBatch) {
			AppendingBatchVisitor apv = new AppendingBatchVisitor();
			buildInfoForBatch(numBatch, apv);

			ParseInfo batchParseInfo = new ParseInfo(apv.getStaticSqlStrings(),
					this.firstStmtChar, this.foundLimitClause,
					this.foundLoadData, this.isOnDuplicateKeyUpdate,
					this.locationOfOnDuplicateKeyUpdate, this.statementLength,
					this.statementStartPos);

			return batchParseInfo;
		}
		
		/**
		 * Returns a preparable SQL string for the number of batched parameters, used by server-side prepared statements
		 * when re-writing batch INSERTs.
		 */
		
		String getSqlForBatch(int numBatch) throws UnsupportedEncodingException {
			ParseInfo batchInfo = getParseInfoForBatch(numBatch);
			
			return getSqlForBatch(batchInfo);
		}
		
		/** 
		 * Used for filling in the SQL for getPreparedSql() - for debugging 
		 */
		String getSqlForBatch(ParseInfo batchInfo) throws UnsupportedEncodingException {
			int size = 0;
			final byte[][] sqlStrings = batchInfo.staticSql;
			final int sqlStringsLength = sqlStrings.length;
			
			for (int i = 0; i < sqlStringsLength; i++) {
				size += sqlStrings[i].length;
				size++; // for the '?'
			}
			
			StringBuffer buf = new StringBuffer(size);
		
			for (int i = 0; i < sqlStringsLength - 1; i++) {
				buf.append(StringUtils.toString(sqlStrings[i], charEncoding));
				buf.append("?");
			}
			
			buf.append(StringUtils.toString(sqlStrings[sqlStringsLength - 1]));
			
			return buf.toString();
		}

		/**
		 * Builds a ParseInfo for the given batch size, without parsing. We use
		 * a visitor pattern here, because the if {}s make computing a size for the
		 * resultant byte[][] make this too complex, and we don't necessarily want to 
		 * use a List for this, because the size can be dynamic, and thus we'll not be
		 * able to guess a good initial size for an array-based list, and it's not
		 * efficient to convert a LinkedList to an array.
		 */
		private void buildInfoForBatch(int numBatch, BatchVisitor visitor) {
			final byte[][] headStaticSql = this.batchHead.staticSql;
			final int headStaticSqlLength = headStaticSql.length;

			if (headStaticSqlLength > 1) {
				for (int i = 0; i < headStaticSqlLength - 1; i++) {
					visitor.append(headStaticSql[i]).increment();
				}
			}

			// merge end of head, with beginning of a value clause
			byte[] endOfHead = headStaticSql[headStaticSqlLength - 1];
			final byte[][] valuesStaticSql = this.batchValues.staticSql;
			byte[] beginOfValues = valuesStaticSql[0];

			visitor.merge(endOfHead, beginOfValues).increment();

			int numValueRepeats = numBatch - 1; // first one is in the "head"

			if (this.batchODKUClause != null) {
				numValueRepeats--; // Last one is in the ODKU clause
			}

			final int valuesStaticSqlLength = valuesStaticSql.length;
			byte[] endOfValues = valuesStaticSql[valuesStaticSqlLength - 1];

			for (int i = 0; i < numValueRepeats; i++) {
				for (int j = 1; j < valuesStaticSqlLength - 1; j++) {
					visitor.append(valuesStaticSql[j]).increment();
				}
				visitor.merge(endOfValues, beginOfValues).increment();
			}

			if (this.batchODKUClause != null) {
				final byte[][] batchOdkuStaticSql = this.batchODKUClause.staticSql;
				byte[] beginOfOdku = batchOdkuStaticSql[0];
				visitor.decrement().merge(endOfValues, beginOfOdku).increment();

				final int batchOdkuStaticSqlLength = batchOdkuStaticSql.length;
				
				if (numBatch > 1) {
					for (int i = 1; i < batchOdkuStaticSqlLength; i++) {
						visitor.append(batchOdkuStaticSql[i])
								.increment();
					}
				} else {
					visitor.decrement().append(batchOdkuStaticSql[(batchOdkuStaticSqlLength - 1)]);
				}
			} else {
				// Everything after the values clause, but not ODKU, which today is nothing
				// but a syntax error, but we should still not mangle the SQL!
				visitor.decrement().append(this.staticSql[this.staticSql.length - 1]);
			}
		}

		private ParseInfo(byte[][] staticSql, char firstStmtChar,
				boolean foundLimitClause, boolean foundLoadData,
				boolean isOnDuplicateKeyUpdate,
				int locationOfOnDuplicateKeyUpdate, int statementLength,
				int statementStartPos) {
			this.firstStmtChar = firstStmtChar;
			this.foundLimitClause = foundLimitClause;
			this.foundLoadData = foundLoadData;
			this.isOnDuplicateKeyUpdate = isOnDuplicateKeyUpdate;
			this.locationOfOnDuplicateKeyUpdate = locationOfOnDuplicateKeyUpdate;
			this.statementLength = statementLength;
			this.statementStartPos = statementStartPos;
			this.staticSql = staticSql;
		}
	}

	interface BatchVisitor {
		abstract BatchVisitor increment();
		
		abstract BatchVisitor decrement();
		
		abstract BatchVisitor append(byte[] values);
		
		abstract BatchVisitor merge(byte[] begin, byte[] end);
	}
	
	class AppendingBatchVisitor implements BatchVisitor {
		LinkedList<byte[]> statementComponents = new LinkedList<byte[]>();
		
		public BatchVisitor append(byte[] values) {
			statementComponents.addLast(values);

			return this;
		}

		public BatchVisitor increment() {
			// no-op
			return this;
		}

		public BatchVisitor decrement() {
			statementComponents.removeLast();
			
			return this;
		}

		public BatchVisitor merge(byte[] front, byte[] back) {
			int mergedLength = front.length + back.length;
			byte[] merged = new byte[mergedLength];
			System.arraycopy(front, 0, merged, 0, front.length);
			System.arraycopy(back, 0, merged, front.length, back.length);
			statementComponents.addLast(merged);
			return this;
		}
		
		public byte[][] getStaticSqlStrings() {
			byte[][] asBytes = new byte[this.statementComponents.size()][];
			this.statementComponents.toArray(asBytes);
			
			return asBytes;
		}
		
		public String toString() {
			StringBuffer buf = new StringBuffer();
			Iterator<byte[]> iter = this.statementComponents.iterator();
			while (iter.hasNext()) {
				buf.append(StringUtils.toString(iter.next()));
			}
			
			return buf.toString();
		}
		
	}
	
	private final static byte[] HEX_DIGITS = new byte[] { (byte) '0',
			(byte) '1', (byte) '2', (byte) '3', (byte) '4', (byte) '5',
			(byte) '6', (byte) '7', (byte) '8', (byte) '9', (byte) 'A',
			(byte) 'B', (byte) 'C', (byte) 'D', (byte) 'E', (byte) 'F' };

	/**
	 * Reads length bytes from reader into buf. Blocks until enough input is
	 * available
	 * 
	 * @param reader
	 *            DOCUMENT ME!
	 * @param buf
	 *            DOCUMENT ME!
	 * @param length
	 *            DOCUMENT ME!
	 * 
	 * @return DOCUMENT ME!
	 * 
	 * @throws IOException
	 *             DOCUMENT ME!
	 */
	protected static int readFully(Reader reader, char[] buf, int length)
			throws IOException {
		int numCharsRead = 0;

		while (numCharsRead < length) {
			int count = reader.read(buf, numCharsRead, length - numCharsRead);

			if (count < 0) {
				break;
			}

			numCharsRead += count;
		}

		return numCharsRead;
	}

	/**
	 * Does the batch (if any) contain "plain" statements added by
	 * Statement.addBatch(String)?
	 * 
	 * If so, we can't re-write it to use multi-value or multi-queries.
	 */
	protected boolean batchHasPlainStatements = false;

	private java.sql.DatabaseMetaData dbmd = null;

	/**
	 * What is the first character of the prepared statement (used to check for
	 * SELECT vs. INSERT/UPDATE/DELETE)
	 */
	protected char firstCharOfStmt = 0;

	/** Does the SQL for this statement contain a 'limit' clause? */
	protected boolean hasLimitClause = false;
	
	/** Is this query a LOAD DATA query? */
	protected boolean isLoadDataQuery = false;

	protected boolean[] isNull = null;

	private boolean[] isStream = null;

	protected int numberOfExecutions = 0;

	/** The SQL that was passed in to 'prepare' */
	protected String originalSql = null;

	/** The number of parameters in this PreparedStatement */
	protected int parameterCount;

	protected MysqlParameterMetadata parameterMetaData;

	private InputStream[] parameterStreams = null;

	private byte[][] parameterValues = null;

	/**
	 * Only used by statement interceptors at the moment to
	 * provide introspection of bound values
	 */
	protected int[] parameterTypes = null;
	
	protected ParseInfo parseInfo;

	private java.sql.ResultSetMetaData pstmtResultMetaData;

	private byte[][] staticSqlStrings = null;

	private byte[] streamConvertBuf = null;

	private int[] streamLengths = null;

	private SimpleDateFormat tsdf = null;

	/**
	 * Are we using a version of MySQL where we can use 'true' boolean values?
	 */
	protected boolean useTrueBoolean = false;

	protected boolean usingAnsiMode;

	protected String batchedValuesClause;

	private boolean doPingInstead;
	private SimpleDateFormat ddf;
	private SimpleDateFormat tdf;
	
	private boolean compensateForOnDuplicateKeyUpdate = false;
	
	/** Charset encoder used to escape if needed, such as Yen sign in SJIS */
	private CharsetEncoder charsetEncoder;
	
	/** Command index of currently executing batch command. */
	protected int batchCommandIndex = -1;
	
	protected boolean serverSupportsFracSecs;
	
	/**
	 * Creates a prepared statement instance -- We need to provide factory-style
	 * methods so we can support both JDBC3 (and older) and JDBC4 runtimes,
	 * otherwise the class verifier complains when it tries to load JDBC4-only
	 * interface classes that are present in JDBC4 method signatures.
	 */

	protected static PreparedStatement getInstance(MySQLConnection conn,
			String catalog) throws SQLException {
		if (!Util.isJdbc4()) {
			return new PreparedStatement(conn, catalog);
		}

		return (PreparedStatement) Util.handleNewInstance(
				JDBC_4_PSTMT_2_ARG_CTOR, new Object[] { conn, catalog }, conn.getExceptionInterceptor());
	}

	/**
	 * Creates a prepared statement instance -- We need to provide factory-style
	 * methods so we can support both JDBC3 (and older) and JDBC4 runtimes,
	 * otherwise the class verifier complains when it tries to load JDBC4-only
	 * interface classes that are present in JDBC4 method signatures.
	 */

	protected static PreparedStatement getInstance(MySQLConnection conn, String sql,
			String catalog) throws SQLException {
		if (!Util.isJdbc4()) {
			return new PreparedStatement(conn, sql, catalog);
		}

		return (PreparedStatement) Util.handleNewInstance(
				JDBC_4_PSTMT_3_ARG_CTOR, new Object[] { conn, sql, catalog }, conn.getExceptionInterceptor());
	}

	/**
	 * Creates a prepared statement instance -- We need to provide factory-style
	 * methods so we can support both JDBC3 (and older) and JDBC4 runtimes,
	 * otherwise the class verifier complains when it tries to load JDBC4-only
	 * interface classes that are present in JDBC4 method signatures.
	 */

	protected static PreparedStatement getInstance(MySQLConnection conn, String sql,
			String catalog, ParseInfo cachedParseInfo) throws SQLException {
		if (!Util.isJdbc4()) {
			return new PreparedStatement(conn, sql, catalog, cachedParseInfo);
		}

		return (PreparedStatement) Util.handleNewInstance(
				JDBC_4_PSTMT_4_ARG_CTOR, new Object[] { conn, sql, catalog,
						cachedParseInfo }, conn.getExceptionInterceptor());
	}
	
	/**
	 * Constructor used by server-side prepared statements
	 * 
	 * @param conn
	 *            the connection that created us
	 * @param catalog
	 *            the catalog in use when we were created
	 * 
	 * @throws SQLException
	 *             if an error occurs
	 */
	public PreparedStatement(MySQLConnection conn, String catalog)
			throws SQLException {
		super(conn, catalog);
		
		detectFractionalSecondsSupport();
		this.compensateForOnDuplicateKeyUpdate = this.connection.getCompensateOnDuplicateKeyUpdateCounts();
	}

	protected void detectFractionalSecondsSupport() throws SQLException {
		this.serverSupportsFracSecs = this.connection != null && 
				this.connection.versionMeetsMinimum(5, 6, 4);
	}

	/**
	 * Constructor for the PreparedStatement class.
	 * 
	 * @param conn
	 *            the connection creating this statement
	 * @param sql
	 *            the SQL for this statement
	 * @param catalog
	 *            the catalog/database this statement should be issued against
	 * 
	 * @throws SQLException
	 *             if a database error occurs.
	 */
	public PreparedStatement(MySQLConnection conn, String sql, String catalog)
			throws SQLException {
		super(conn, catalog);

		if (sql == null) {
			throw SQLError.createSQLException(Messages.getString("PreparedStatement.0"), //$NON-NLS-1$
					SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
		}

		detectFractionalSecondsSupport();
		this.originalSql = sql;

		if (this.originalSql.startsWith(PING_MARKER)) {
			this.doPingInstead = true;
		} else {
			this.doPingInstead = false;
		}
		
		this.dbmd = this.connection.getMetaData();

		this.useTrueBoolean = this.connection.versionMeetsMinimum(3, 21, 23);

		this.parseInfo = new ParseInfo(sql, this.connection, this.dbmd,
				this.charEncoding, this.charConverter);

		initializeFromParseInfo();
		
		this.compensateForOnDuplicateKeyUpdate = this.connection.getCompensateOnDuplicateKeyUpdateCounts();
		
		if (conn.getRequiresEscapingEncoder())
			charsetEncoder = Charset.forName(conn.getEncoding()).newEncoder();
	}

	/**
	 * Creates a new PreparedStatement object.
	 * 
	 * @param conn
	 *            the connection creating this statement
	 * @param sql
	 *            the SQL for this statement
	 * @param catalog
	 *            the catalog/database this statement should be issued against
	 * @param cachedParseInfo
	 *            already created parseInfo.
	 * 
	 * @throws SQLException
	 *             DOCUMENT ME!
	 */
	public PreparedStatement(MySQLConnection conn, String sql, String catalog,
			ParseInfo cachedParseInfo) throws SQLException {
		super(conn, catalog);

		if (sql == null) {
			throw SQLError.createSQLException(Messages.getString("PreparedStatement.1"), //$NON-NLS-1$
					SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
		}

		detectFractionalSecondsSupport();
		this.originalSql = sql;

		this.dbmd = this.connection.getMetaData();

		this.useTrueBoolean = this.connection.versionMeetsMinimum(3, 21, 23);

		this.parseInfo = cachedParseInfo;

		this.usingAnsiMode = !this.connection.useAnsiQuotedIdentifiers();

		initializeFromParseInfo();
		
		this.compensateForOnDuplicateKeyUpdate = this.connection.getCompensateOnDuplicateKeyUpdateCounts();

		if (conn.getRequiresEscapingEncoder())
			charsetEncoder = Charset.forName(conn.getEncoding()).newEncoder();
	}

	/**
	 * JDBC 2.0 Add a set of parameters to the batch.
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 * 
	 * @see StatementImpl#addBatch
	 */
	public void addBatch() throws SQLException {
		synchronized (checkClosed()) {
			if (this.batchedArgs == null) {
				this.batchedArgs = new ArrayList<Object>();
			}
	
			for (int i = 0; i < this.parameterValues.length; i++) {
				checkAllParametersSet(this.parameterValues[i],
						this.parameterStreams[i], i);
			}
			
			this.batchedArgs.add(new BatchParams(this.parameterValues,
					this.parameterStreams, this.isStream, this.streamLengths,
					this.isNull));
		}
	}

	public void addBatch(String sql) throws SQLException {
		synchronized (checkClosed()) {
			this.batchHasPlainStatements = true;
	
			super.addBatch(sql);
		}
	}

	protected String asSql() throws SQLException {
		return asSql(false);
	}

	protected String asSql(boolean quoteStreamsAndUnknowns) throws SQLException {
		synchronized (checkClosed()) {
			
			StringBuffer buf = new StringBuffer();
	
			try {
				int realParameterCount = this.parameterCount + getParameterIndexOffset();
				Object batchArg = null;
				if (batchCommandIndex != -1)
					batchArg = batchedArgs.get(batchCommandIndex);
				
				for (int i = 0; i < realParameterCount; ++i) {
					if (this.charEncoding != null) {
						buf.append(StringUtils.toString(this.staticSqlStrings[i],
								this.charEncoding));
					} else {
						buf.append(StringUtils.toString(this.staticSqlStrings[i]));
					}
	
					byte val[] = null;
					if (batchArg != null && batchArg instanceof String) {
						buf.append((String)batchArg);
						continue;
					}
					if (batchCommandIndex == -1)
						val = parameterValues[i];
					else
						val = ((BatchParams)batchArg).parameterStrings[i]; 
					
					boolean isStreamParam = false;
					if (batchCommandIndex == -1)
						isStreamParam = isStream[i];
					else
						isStreamParam = ((BatchParams)batchArg).isStream[i];
	
					if ((val == null) && !isStreamParam) {
						if (quoteStreamsAndUnknowns) {
							buf.append("'");
						}
	
						buf.append("** NOT SPECIFIED **"); //$NON-NLS-1$
	
						if (quoteStreamsAndUnknowns) {
							buf.append("'");
						}
					} else if (isStreamParam) {
						if (quoteStreamsAndUnknowns) {
							buf.append("'");
						}
	
						buf.append("** STREAM DATA **"); //$NON-NLS-1$
	
						if (quoteStreamsAndUnknowns) {
							buf.append("'");
						}
					} else {
						if (this.charConverter != null) {
							buf.append(this.charConverter.toString(val));
						} else {
							if (this.charEncoding != null) {
								buf.append(new String(val, this.charEncoding));
							} else {
								buf.append(StringUtils.toAsciiString(val));
							}
						}
					}
				}
	
				if (this.charEncoding != null) {
					buf.append(StringUtils.toString(
							this.staticSqlStrings[this.parameterCount + getParameterIndexOffset()],
							this.charEncoding));
				} else {
					buf
							.append(StringUtils
									.toAsciiString(this.staticSqlStrings[this.parameterCount + getParameterIndexOffset()]));
				}
			} catch (UnsupportedEncodingException uue) {
				throw new RuntimeException(Messages
						.getString("PreparedStatement.32") //$NON-NLS-1$
						+ this.charEncoding
						+ Messages.getString("PreparedStatement.33")); //$NON-NLS-1$
			}
	
			return buf.toString();
		}
	}

	public void clearBatch() throws SQLException {
		synchronized (checkClosed()) {
			this.batchHasPlainStatements = false;
	
			super.clearBatch();
		}
	}

	/**
	 * In general, parameter values remain in force for repeated used of a
	 * Statement. Setting a parameter value automatically clears its previous
	 * value. However, in some cases, it is useful to immediately release the
	 * resources used by the current parameter values; this can be done by
	 * calling clearParameters
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void clearParameters() throws SQLException {
		synchronized (checkClosed()) {
		
			for (int i = 0; i < this.parameterValues.length; i++) {
				this.parameterValues[i] = null;
				this.parameterStreams[i] = null;
				this.isStream[i] = false;
				this.isNull[i] = false;
				this.parameterTypes[i] = Types.NULL;
			}
		}
	}

	private final void escapeblockFast(byte[] buf, Buffer packet, int size)
			throws SQLException {
		int lastwritten = 0;

		for (int i = 0; i < size; i++) {
			byte b = buf[i];

			if (b == '\0') {
				// write stuff not yet written
				if (i > lastwritten) {
					packet.writeBytesNoNull(buf, lastwritten, i - lastwritten);
				}

				// write escape
				packet.writeByte((byte) '\\');
				packet.writeByte((byte) '0');
				lastwritten = i + 1;
			} else {
				if ((b == '\\') || (b == '\'')
						|| (!this.usingAnsiMode && b == '"')) {
					// write stuff not yet written
					if (i > lastwritten) {
						packet.writeBytesNoNull(buf, lastwritten, i
								- lastwritten);
					}

					// write escape
					packet.writeByte((byte) '\\');
					lastwritten = i; // not i+1 as b wasn't written.
				}
			}
		}

		// write out remaining stuff from buffer
		if (lastwritten < size) {
			packet.writeBytesNoNull(buf, lastwritten, size - lastwritten);
		}
	}

	private final void escapeblockFast(byte[] buf,
			ByteArrayOutputStream bytesOut, int size) {
		int lastwritten = 0;

		for (int i = 0; i < size; i++) {
			byte b = buf[i];

			if (b == '\0') {
				// write stuff not yet written
				if (i > lastwritten) {
					bytesOut.write(buf, lastwritten, i - lastwritten);
				}

				// write escape
				bytesOut.write('\\');
				bytesOut.write('0');
				lastwritten = i + 1;
			} else {
				if ((b == '\\') || (b == '\'')
						|| (!this.usingAnsiMode && b == '"')) {
					// write stuff not yet written
					if (i > lastwritten) {
						bytesOut.write(buf, lastwritten, i - lastwritten);
					}

					// write escape
					bytesOut.write('\\');
					lastwritten = i; // not i+1 as b wasn't written.
				}
			}
		}

		// write out remaining stuff from buffer
		if (lastwritten < size) {
			bytesOut.write(buf, lastwritten, size - lastwritten);
		}
	}
	
	/**
	 * Check to see if the statement is safe for read-only slaves after failover.
	 * 
	 * @return true if safe for read-only.
	 * @throws SQLException
	 */
	protected boolean checkReadOnlySafeStatement() throws SQLException {
		synchronized (checkClosed()) {
			return ((!this.connection.isReadOnly()) || (this.firstCharOfStmt == 'S'));
		}
	}

	/**
	 * Some prepared statements return multiple results; the execute method
	 * handles these complex statements as well as the simpler form of
	 * statements handled by executeQuery and executeUpdate
	 * 
	 * @return true if the next result is a ResultSet; false if it is an update
	 *         count or there are no more results
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public boolean execute() throws SQLException {
		synchronized (checkClosed()) {
		
			MySQLConnection locallyScopedConn = this.connection;
			
			if(!checkReadOnlySafeStatement()) {
				 throw SQLError.createSQLException(Messages.getString("PreparedStatement.20") //$NON-NLS-1$
								+ Messages.getString("PreparedStatement.21"), //$NON-NLS-1$
								SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
			}
			
			ResultSetInternalMethods rs = null;
	
			CachedResultSetMetaData cachedMetadata = null;
	
			lastQueryIsOnDupKeyUpdate = false;
			
			if (retrieveGeneratedKeys) {
				lastQueryIsOnDupKeyUpdate = containsOnDuplicateKeyUpdateInSQL();
			}
			
			boolean doStreaming = createStreamingResultSet();
			
			clearWarnings();
	
			// Adjust net_write_timeout to a higher value if we're
			// streaming result sets. More often than not, someone runs into
			// an issue where they blow net_write_timeout when using this
			// feature, and if they're willing to hold a result set open
			// for 30 seconds or more, one more round-trip isn't going to hurt
			//
			// This is reset by RowDataDynamic.close().
			
			if (doStreaming
					&& this.connection.getNetTimeoutForStreamingResults() > 0) {
				executeSimpleNonQuery(locallyScopedConn,
						"SET net_write_timeout="
								+ this.connection
										.getNetTimeoutForStreamingResults());
			}
			
			this.batchedGeneratedKeys = null;
	
			Buffer sendPacket = fillSendPacket();
	
			String oldCatalog = null;
	
			if (!locallyScopedConn.getCatalog().equals(this.currentCatalog)) {
				oldCatalog = locallyScopedConn.getCatalog();
				locallyScopedConn.setCatalog(this.currentCatalog);
			}
	
			//
			// Check if we have cached metadata for this query...
			//
			if (locallyScopedConn.getCacheResultSetMetadata()) {
				cachedMetadata = locallyScopedConn.getCachedMetaData(this.originalSql);
			}
	
			Field[] metadataFromCache = null;
			
			if (cachedMetadata != null) {
				metadataFromCache = cachedMetadata.fields;
			}
			
			boolean oldInfoMsgState = false;
	
			if (this.retrieveGeneratedKeys) {
				oldInfoMsgState = locallyScopedConn.isReadInfoMsgEnabled();
				locallyScopedConn.setReadInfoMsgEnabled(true);
			}
	
			// If there isn't a limit clause in the SQL
			// then limit the number of rows to return in
			// an efficient manner. Only do this if
			// setMaxRows() hasn't been used on any Statements
			// generated from the current Connection (saves
			// a query, and network traffic).
			//
			// Only apply max_rows to selects
			//
			if (locallyScopedConn.useMaxRows()) {
				int rowLimit = -1;
	
				if (this.firstCharOfStmt == 'S') {
					if (this.hasLimitClause) {
						rowLimit = this.maxRows;
					} else {
						if (this.maxRows <= 0) {
							executeSimpleNonQuery(locallyScopedConn,
									"SET SQL_SELECT_LIMIT=DEFAULT");
						} else {
							executeSimpleNonQuery(locallyScopedConn,
									"SET SQL_SELECT_LIMIT=" + this.maxRows);
						}
					}
				} else {
					executeSimpleNonQuery(locallyScopedConn,
							"SET SQL_SELECT_LIMIT=DEFAULT");
				}
	
				// Finally, execute the query
				rs = executeInternal(rowLimit, sendPacket,
						doStreaming,
						(this.firstCharOfStmt == 'S'), metadataFromCache, false);
			} else {
				rs = executeInternal(-1, sendPacket,
						doStreaming,
						(this.firstCharOfStmt == 'S'), metadataFromCache, false);
			}
	
			if (cachedMetadata != null) {
				locallyScopedConn.initializeResultsMetadataFromCache(this.originalSql,
						cachedMetadata, this.results);
			} else {
				if (rs.reallyResult() && locallyScopedConn.getCacheResultSetMetadata()) {
					locallyScopedConn.initializeResultsMetadataFromCache(this.originalSql,
							null /* will be created */, rs);
				}
			}
			
			if (this.retrieveGeneratedKeys) {
				locallyScopedConn.setReadInfoMsgEnabled(oldInfoMsgState);
				rs.setFirstCharOfQuery(this.firstCharOfStmt);
			}
	
			if (oldCatalog != null) {
				locallyScopedConn.setCatalog(oldCatalog);
			}
	
			if (rs != null) {
				this.lastInsertId = rs.getUpdateID();
				
				this.results = rs;
			}
			
			return ((rs != null) && rs.reallyResult());
		}
	}

	/**
	 * JDBC 2.0 Submit a batch of commands to the database for execution. This
	 * method is optional.
	 * 
	 * @return an array of update counts containing one element for each command
	 *         in the batch. The array is ordered according to the order in
	 *         which commands were inserted into the batch
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs, or the driver does not
	 *                support batch statements
	 * @throws java.sql.BatchUpdateException
	 *             DOCUMENT ME!
	 */
	public int[] executeBatch() throws SQLException {
		synchronized (checkClosed()) {
		
			if (this.connection.isReadOnly()) {
				throw new SQLException(Messages.getString("PreparedStatement.25") //$NON-NLS-1$
						+ Messages.getString("PreparedStatement.26"), //$NON-NLS-1$
						SQLError.SQL_STATE_ILLEGAL_ARGUMENT);
			}

			if (this.batchedArgs == null || this.batchedArgs.size() == 0) {
                return new int[0];
            }

			// we timeout the entire batch, not individual statements
			int batchTimeout = this.timeoutInMillis;
			this.timeoutInMillis = 0;
		
			resetCancelledState();
			
			try {
				statementBegins();
				
				clearWarnings();

				if (!this.batchHasPlainStatements
						&& this.connection.getRewriteBatchedStatements()) {
					
					
					if (canRewriteAsMultiValueInsertAtSqlLevel()) {
						return executeBatchedInserts(batchTimeout);
					}
					
					if (this.connection.versionMeetsMinimum(4, 1, 0) 
							&& !this.batchHasPlainStatements
							&& this.batchedArgs != null 
							&& this.batchedArgs.size() > 3 /* cost of option setting rt-wise */) {
						return executePreparedBatchAsMultiStatement(batchTimeout);
					}
				}

				return executeBatchSerially(batchTimeout);
			} finally {
				this.statementExecuting.set(false);
				
				clearBatch();
			}
		}
	}

	public boolean canRewriteAsMultiValueInsertAtSqlLevel() throws SQLException {
		return this.parseInfo.canRewriteAsMultiValueInsert;
	}
	
	protected int getLocationOfOnDuplicateKeyUpdate() throws SQLException {
		return this.parseInfo.locationOfOnDuplicateKeyUpdate;
	}

	/**
	 * Rewrites the already prepared statement into a multi-statement
	 * query of 'statementsPerBatch' values and executes the entire batch
	 * using this new statement.
	 * 
	 * @return update counts in the same fashion as executeBatch()
	 * 
	 * @throws SQLException
	 */
	
	protected int[] executePreparedBatchAsMultiStatement(int batchTimeout) throws SQLException {
		synchronized (checkClosed()) {
			// This is kind of an abuse, but it gets the job done
			if (this.batchedValuesClause == null) {
				this.batchedValuesClause = this.originalSql + ";";
			}
			
			MySQLConnection locallyScopedConn = this.connection;
			
			boolean multiQueriesEnabled = locallyScopedConn.getAllowMultiQueries();
			CancelTask timeoutTask = null;
			
			try {
				clearWarnings();
				
				int numBatchedArgs = this.batchedArgs.size();
				
				if (this.retrieveGeneratedKeys) {
					this.batchedGeneratedKeys = new ArrayList<ResultSetRow>(numBatchedArgs);
				}

				int numValuesPerBatch = computeBatchSize(numBatchedArgs);

				if (numBatchedArgs < numValuesPerBatch) {
					numValuesPerBatch = numBatchedArgs;
				}

				java.sql.PreparedStatement batchedStatement = null;

				int batchedParamIndex = 1;
				int numberToExecuteAsMultiValue = 0;
				int batchCounter = 0;
				int updateCountCounter = 0;
				int[] updateCounts = new int[numBatchedArgs];
				SQLException sqlEx = null;
				
				try {
					if (!multiQueriesEnabled) {
						locallyScopedConn.getIO().enableMultiQueries();
					}
					
					if (this.retrieveGeneratedKeys) {
						batchedStatement = locallyScopedConn.prepareStatement(
								generateMultiStatementForBatch(numValuesPerBatch),
								RETURN_GENERATED_KEYS);
					} else {
						batchedStatement = locallyScopedConn
								.prepareStatement(generateMultiStatementForBatch(numValuesPerBatch));
					}

					if (locallyScopedConn.getEnableQueryTimeouts() &&
							batchTimeout != 0
							&& locallyScopedConn.versionMeetsMinimum(5, 0, 0)) {
						timeoutTask = new CancelTask((StatementImpl)batchedStatement);
						locallyScopedConn.getCancelTimer().schedule(timeoutTask,
								batchTimeout);
					}
					
					if (numBatchedArgs < numValuesPerBatch) {
						numberToExecuteAsMultiValue = numBatchedArgs;
					} else {
						numberToExecuteAsMultiValue = numBatchedArgs / numValuesPerBatch;
					}
			
					int numberArgsToExecute = numberToExecuteAsMultiValue * numValuesPerBatch;
			
					for (int i = 0; i < numberArgsToExecute; i++) {
						if (i != 0 && i % numValuesPerBatch == 0) {
							try {
								batchedStatement.execute();
							} catch (SQLException ex) {
								sqlEx = handleExceptionForBatch(batchCounter, numValuesPerBatch, 
										updateCounts, ex);
							}
							
							updateCountCounter = processMultiCountsAndKeys(
									(StatementImpl)batchedStatement, updateCountCounter,
									updateCounts);
							
							batchedStatement.clearParameters();
							batchedParamIndex = 1;
						}
			
						batchedParamIndex = setOneBatchedParameterSet(batchedStatement,
								batchedParamIndex, this.batchedArgs
								.get(batchCounter++));
					}
			
					try {
						batchedStatement.execute();
					} catch (SQLException ex) {
						sqlEx = handleExceptionForBatch(batchCounter - 1, numValuesPerBatch, 
								updateCounts, ex);
					}
					
					updateCountCounter = processMultiCountsAndKeys(
							(StatementImpl)batchedStatement, updateCountCounter,
							updateCounts);
					
					batchedStatement.clearParameters();
			
					numValuesPerBatch = numBatchedArgs - batchCounter;
				} finally {
					if (batchedStatement != null) {
						batchedStatement.close();
					}
				}
				
				try {
					if (numValuesPerBatch > 0) {
			
						if (this.retrieveGeneratedKeys) {
							batchedStatement = locallyScopedConn.prepareStatement(
									generateMultiStatementForBatch(numValuesPerBatch),
								RETURN_GENERATED_KEYS);
						} else {
							batchedStatement = locallyScopedConn.prepareStatement(
									generateMultiStatementForBatch(numValuesPerBatch));
						}
						
						if (timeoutTask != null) {
							timeoutTask.toCancel = (StatementImpl)batchedStatement;
						}
						
						batchedParamIndex = 1;
			
						while (batchCounter < numBatchedArgs) {
							batchedParamIndex = setOneBatchedParameterSet(batchedStatement,
									batchedParamIndex, this.batchedArgs
									.get(batchCounter++));
						}
			
						try {
							batchedStatement.execute();
						} catch (SQLException ex) {
							sqlEx = handleExceptionForBatch(batchCounter - 1, numValuesPerBatch, 
									updateCounts, ex);
						}
						
						updateCountCounter = processMultiCountsAndKeys(
								(StatementImpl)batchedStatement, updateCountCounter,
								updateCounts);
						
						batchedStatement.clearParameters();
					}
			
					if (timeoutTask != null) {
						if (timeoutTask.caughtWhileCancelling != null) {
							throw timeoutTask.caughtWhileCancelling;
						}

						timeoutTask.cancel();
						
						locallyScopedConn.getCancelTimer().purge();
						
						timeoutTask = null;
					}
					
					if (sqlEx != null) {
						SQLException batchUpdateException = new java.sql.BatchUpdateException(sqlEx
								.getMessage(), sqlEx.getSQLState(), sqlEx
								.getErrorCode(), updateCounts);
						batchUpdateException.initCause(sqlEx);
						throw batchUpdateException;
					}
					
					return updateCounts;
				} finally {
					if (batchedStatement != null) {
						batchedStatement.close();
					}
				}
			} finally {
				if (timeoutTask != null) {
					timeoutTask.cancel();
					locallyScopedConn.getCancelTimer().purge();
				}
				
				resetCancelledState();
				
				if (!multiQueriesEnabled) {
					locallyScopedConn.getIO().disableMultiQueries();
				}
				
				clearBatch();
			}
		}
	}
	
	private String generateMultiStatementForBatch(int numBatches) throws SQLException {
		synchronized (checkClosed()) {
			StringBuffer newStatementSql = new StringBuffer((this.originalSql
					.length() + 1) * numBatches);
					
			newStatementSql.append(this.originalSql);
	
			for (int i = 0; i < numBatches - 1; i++) {
				newStatementSql.append(';');
				newStatementSql.append(this.originalSql);
			}
	
			return newStatementSql.toString();
		}
	}
	
	/**
	 * Rewrites the already prepared statement into a multi-value insert
	 * statement of 'statementsPerBatch' values and executes the entire batch
	 * using this new statement.
	 * 
	 * @return update counts in the same fashion as executeBatch()
	 * 
	 * @throws SQLException
	 */
	protected int[] executeBatchedInserts(int batchTimeout) throws SQLException {
		synchronized (checkClosed()) {
			String valuesClause = getValuesClause(); 
	
			MySQLConnection locallyScopedConn = this.connection;
	
			if (valuesClause == null) {
				return executeBatchSerially(batchTimeout);
			}
	
			int numBatchedArgs = this.batchedArgs.size();
	
			if (this.retrieveGeneratedKeys) {
				this.batchedGeneratedKeys = new ArrayList<ResultSetRow>(numBatchedArgs);
			}
	
			int numValuesPerBatch = computeBatchSize(numBatchedArgs);
	
			if (numBatchedArgs < numValuesPerBatch) {
				numValuesPerBatch = numBatchedArgs;
			}
	
			java.sql.PreparedStatement batchedStatement = null;
	
			int batchedParamIndex = 1;
			int updateCountRunningTotal = 0;
			int numberToExecuteAsMultiValue = 0;
			int batchCounter = 0;
			CancelTask timeoutTask = null;
			SQLException sqlEx = null;
			
			int[] updateCounts = new int[numBatchedArgs];
	
			for (int i = 0; i < this.batchedArgs.size(); i++) {
				updateCounts[i] = 1;
			}
			
			try {
				try {
						batchedStatement = /* FIXME -if we ever care about folks proxying our MySQLConnection */
								prepareBatchedInsertSQL(locallyScopedConn, numValuesPerBatch);
	
					if (locallyScopedConn.getEnableQueryTimeouts()
							&& batchTimeout != 0
							&& locallyScopedConn.versionMeetsMinimum(5, 0, 0)) {
						timeoutTask = new CancelTask(
								(StatementImpl) batchedStatement);
						locallyScopedConn.getCancelTimer().schedule(timeoutTask,
								batchTimeout);
					}
	
					if (numBatchedArgs < numValuesPerBatch) {
						numberToExecuteAsMultiValue = numBatchedArgs;
					} else {
						numberToExecuteAsMultiValue = numBatchedArgs
								/ numValuesPerBatch;
					}
	
					int numberArgsToExecute = numberToExecuteAsMultiValue
							* numValuesPerBatch;
	
					for (int i = 0; i < numberArgsToExecute; i++) {
						if (i != 0 && i % numValuesPerBatch == 0) {
							try {
								updateCountRunningTotal += batchedStatement
									.executeUpdate();
							} catch (SQLException ex) {
								sqlEx = handleExceptionForBatch(batchCounter - 1,
										numValuesPerBatch, updateCounts, ex);
							}
	
							getBatchedGeneratedKeys(batchedStatement);
							batchedStatement.clearParameters();
							batchedParamIndex = 1;
	
						}
	
						batchedParamIndex = setOneBatchedParameterSet(
								batchedStatement, batchedParamIndex,
								this.batchedArgs.get(batchCounter++));
					}
	
					try {
						//updateCountRunningTotal += 
								batchedStatement.executeUpdate();
					} catch (SQLException ex) {
						sqlEx = handleExceptionForBatch(batchCounter - 1,
								numValuesPerBatch, updateCounts, ex);
					}
					
					getBatchedGeneratedKeys(batchedStatement);
	
					numValuesPerBatch = numBatchedArgs - batchCounter;
				} finally {
					if (batchedStatement != null) {
						batchedStatement.close();
					}
				}
	
				try {
					if (numValuesPerBatch > 0) {
							batchedStatement = 
									prepareBatchedInsertSQL(locallyScopedConn,
											numValuesPerBatch);
						
						if (timeoutTask != null) {
							timeoutTask.toCancel = (StatementImpl) batchedStatement;
						}
	
						batchedParamIndex = 1;
	
						while (batchCounter < numBatchedArgs) {
							batchedParamIndex = setOneBatchedParameterSet(
									batchedStatement, batchedParamIndex,
									this.batchedArgs.get(batchCounter++));
						}
	
						try {
							updateCountRunningTotal += batchedStatement.executeUpdate();
						} catch (SQLException ex) {
							sqlEx = handleExceptionForBatch(batchCounter - 1,
									numValuesPerBatch, updateCounts, ex);
						}
						
						getBatchedGeneratedKeys(batchedStatement);
					}
	
					if (sqlEx != null) {
						SQLException batchUpdateException = new java.sql.BatchUpdateException(sqlEx
								.getMessage(), sqlEx.getSQLState(), sqlEx
								.getErrorCode(), updateCounts);
						batchUpdateException.initCause(sqlEx);
						throw batchUpdateException;
					}
					
					return updateCounts;
				} finally {
					if (batchedStatement != null) {
						batchedStatement.close();
					}
				}
			} finally {
				if (timeoutTask != null) {
					timeoutTask.cancel();
					locallyScopedConn.getCancelTimer().purge();
				}
	
				resetCancelledState();
			}
		}
	}

	protected String getValuesClause() throws SQLException {
		return this.parseInfo.valuesClause;
	}

	/**
	 * Computes the optimum number of batched parameter lists to send
	 * without overflowing max_allowed_packet.
	 * 
	 * @param numBatchedArgs
	 * @return
	 * @throws SQLException 
	 */
	protected int computeBatchSize(int numBatchedArgs) throws SQLException {
		synchronized (checkClosed()) {
			long[] combinedValues = computeMaxParameterSetSizeAndBatchSize(numBatchedArgs);
			
			long maxSizeOfParameterSet = combinedValues[0];
			long sizeOfEntireBatch = combinedValues[1];
			
			int maxAllowedPacket = this.connection.getMaxAllowedPacket();
			
			if (sizeOfEntireBatch < maxAllowedPacket - this.originalSql.length()) {
				return numBatchedArgs;
			}
			
			return (int)Math.max(1, (maxAllowedPacket - this.originalSql.length()) / maxSizeOfParameterSet);
		}
	}
	
	/** 
	 *  Computes the maximum parameter set size, and entire batch size given 
	 *  the number of arguments in the batch.
	 * @throws SQLException 
	 */
	protected long[] computeMaxParameterSetSizeAndBatchSize(int numBatchedArgs) throws SQLException {
		synchronized (checkClosed()) {
			long sizeOfEntireBatch = 0;
			long maxSizeOfParameterSet = 0;
			
			for (int i = 0; i < numBatchedArgs; i++) {
				BatchParams paramArg = (BatchParams) this.batchedArgs
				.get(i);
	
				boolean[] isNullBatch = paramArg.isNull;
				boolean[] isStreamBatch = paramArg.isStream;
	
				long sizeOfParameterSet = 0;
				
				for (int j = 0; j < isNullBatch.length; j++) {
					if (!isNullBatch[j]) {
	
						if (isStreamBatch[j]) {
							int streamLength = paramArg.streamLengths[j];
							
							if (streamLength != -1) {
								sizeOfParameterSet += streamLength * 2; // for safety in escaping
							} else {
								int paramLength = paramArg.parameterStrings[j].length;
								sizeOfParameterSet += paramLength;
							}
						} else {
							sizeOfParameterSet += paramArg.parameterStrings[j].length;
						}
					} else {
						sizeOfParameterSet += 4; // for NULL literal in SQL 
					}
				}
				
				//
				// Account for static part of values clause
				// This is a little naiive, because the ?s will be replaced
				// but it gives us some padding, and is less housekeeping
				// to ignore them. We're looking for a "fuzzy" value here
				// anyway
				//
				
				if (getValuesClause() != null) {
					sizeOfParameterSet += getValuesClause().length() + 1;
				} else {
					sizeOfParameterSet += this.originalSql.length() + 1;
				}
				
				sizeOfEntireBatch += sizeOfParameterSet;
				
				if (sizeOfParameterSet > maxSizeOfParameterSet) {
					maxSizeOfParameterSet = sizeOfParameterSet;
				}
			}	
			
			return new long[] {maxSizeOfParameterSet, sizeOfEntireBatch};
		}
	}


	/**
	 * Executes the current batch of statements by executing them one-by-one.
	 * 
	 * @return a list of update counts
	 * @throws SQLException
	 *             if an error occurs
	 */
	protected int[] executeBatchSerially(int batchTimeout) throws SQLException {
		
		synchronized (checkClosed()) {
			MySQLConnection locallyScopedConn = this.connection;
			
			if (locallyScopedConn == null) {
				checkClosed();
			}
	
			int[] updateCounts = null;
	
			if (this.batchedArgs != null) {
				int nbrCommands = this.batchedArgs.size();
				updateCounts = new int[nbrCommands];
	
				for (int i = 0; i < nbrCommands; i++) {
					updateCounts[i] = -3;
				}
	
				SQLException sqlEx = null;
	
				CancelTask timeoutTask = null;
				
				try {
					if (locallyScopedConn.getEnableQueryTimeouts() &&
							batchTimeout != 0
							&& locallyScopedConn.versionMeetsMinimum(5, 0, 0)) {
						timeoutTask = new CancelTask(this);
						locallyScopedConn.getCancelTimer().schedule(timeoutTask,
								batchTimeout);
					}
					
					if (this.retrieveGeneratedKeys) {
						this.batchedGeneratedKeys = new ArrayList<ResultSetRow>(nbrCommands);
					}
		
					for (batchCommandIndex = 0; batchCommandIndex < nbrCommands; batchCommandIndex++) {
						Object arg = this.batchedArgs.get(batchCommandIndex);
		
						if (arg instanceof String) {
							updateCounts[batchCommandIndex] = executeUpdate((String) arg);
						} else {
							BatchParams paramArg = (BatchParams) arg;
		
							try {
								updateCounts[batchCommandIndex] = executeUpdate(
										paramArg.parameterStrings,
										paramArg.parameterStreams, paramArg.isStream,
										paramArg.streamLengths, paramArg.isNull, true);
		
								if (this.retrieveGeneratedKeys) {
									java.sql.ResultSet rs = null;
		
									try {
										if (containsOnDuplicateKeyUpdateInSQL())
											rs = getGeneratedKeysInternal(1);
										else
											rs = getGeneratedKeysInternal();
		
										while (rs.next()) {
											this.batchedGeneratedKeys
													.add(new ByteArrayRow(new byte[][] { rs.getBytes(1) }, getExceptionInterceptor()));
										}
									} finally {
										if (rs != null) {
											rs.close();
										}
									}
								}
							} catch (SQLException ex) {
								updateCounts[batchCommandIndex] = EXECUTE_FAILED;
		
								if (this.continueBatchOnError && 
										!(ex instanceof MySQLTimeoutException) && 
										!(ex instanceof MySQLStatementCancelledException) &&
										!hasDeadlockOrTimeoutRolledBackTx(ex)) {
									sqlEx = ex;
								} else {
									int[] newUpdateCounts = new int[batchCommandIndex];
									System.arraycopy(updateCounts, 0,
											newUpdateCounts, 0, batchCommandIndex);
		
									SQLException batchUpdateException = new java.sql.BatchUpdateException(ex
											.getMessage(), ex.getSQLState(), ex
											.getErrorCode(), newUpdateCounts);
									batchUpdateException.initCause(ex);
									throw batchUpdateException;
								}
							}
						}
					}
		
					if (sqlEx != null) {
						SQLException batchUpdateException = new java.sql.BatchUpdateException(sqlEx.getMessage(),
								sqlEx.getSQLState(), sqlEx.getErrorCode(), updateCounts);
						batchUpdateException.initCause(sqlEx);
						throw batchUpdateException;
					}
				} catch (NullPointerException npe) {
					try {
						checkClosed();
					} catch (SQLException connectionClosedEx) {
						updateCounts[batchCommandIndex] = EXECUTE_FAILED;
						
						int[] newUpdateCounts = new int[batchCommandIndex];
						
						System.arraycopy(updateCounts, 0,
								newUpdateCounts, 0, batchCommandIndex);
	
						throw new java.sql.BatchUpdateException(connectionClosedEx
								.getMessage(), connectionClosedEx.getSQLState(), connectionClosedEx
								.getErrorCode(), newUpdateCounts);
					}
					
					throw npe; // we don't know why this happened, punt
				} finally {
					batchCommandIndex = -1;
					
					if (timeoutTask != null) {
						timeoutTask.cancel();
						locallyScopedConn.getCancelTimer().purge();
					}
					
					resetCancelledState();
				}
			}
		
			return (updateCounts != null) ? updateCounts : new int[0];
		}
		
	}

   public String getDateTime(String pattern){
      SimpleDateFormat sdf = new SimpleDateFormat(pattern);
      return sdf.format(new java.util.Date());
   }

	/**
	 * Actually execute the prepared statement. This is here so server-side
	 * PreparedStatements can re-use most of the code from this class.
	 * 
	 * @param maxRowsToRetrieve
	 *            the max number of rows to return
	 * @param sendPacket
	 *            the packet to send
	 * @param createStreamingResultSet
	 *            should a 'streaming' result set be created?
	 * @param queryIsSelectOnly
	 *            is this query doing a SELECT?
	 * @param unpackFields
	 *            DOCUMENT ME!
	 * 
	 * @return the results as a ResultSet
	 * 
	 * @throws SQLException
	 *             if an error occurs.
	 */
	protected ResultSetInternalMethods executeInternal(int maxRowsToRetrieve,
			Buffer sendPacket, boolean createStreamingResultSet,
			boolean queryIsSelectOnly, Field[] metadataFromCache,
			boolean isBatch)
			throws SQLException {
		synchronized (checkClosed()) {
			try {
				
				resetCancelledState();
				
				MySQLConnection locallyScopedConnection = this.connection;
				
				this.numberOfExecutions++;
		
				if (this.doPingInstead) {
					doPingInstead();
					
					return this.results;
				}
				
				ResultSetInternalMethods rs;
				
				CancelTask timeoutTask = null;
		
				try {
					if (locallyScopedConnection.getEnableQueryTimeouts() &&
							this.timeoutInMillis != 0
							&& locallyScopedConnection.versionMeetsMinimum(5, 0, 0)) {
						timeoutTask = new CancelTask(this);
						locallyScopedConnection.getCancelTimer().schedule(timeoutTask, 
								this.timeoutInMillis);
					}
	
					if (!isBatch) {
						statementBegins();
					}
					
					rs = locallyScopedConnection.execSQL(this, null, maxRowsToRetrieve, sendPacket,
						this.resultSetType, this.resultSetConcurrency,
						createStreamingResultSet, this.currentCatalog,
						metadataFromCache, isBatch);
					
					if (timeoutTask != null) {
						timeoutTask.cancel();
						
						locallyScopedConnection.getCancelTimer().purge();
						
						if (timeoutTask.caughtWhileCancelling != null) {
							throw timeoutTask.caughtWhileCancelling;
						}
						
						timeoutTask = null;
					}
				
					synchronized (this.cancelTimeoutMutex) {
						if (this.wasCancelled) {
							SQLException cause = null;
							
							if (this.wasCancelledByTimeout) {
								cause = new MySQLTimeoutException();
							} else {
								cause = new MySQLStatementCancelledException();
							}
							
							resetCancelledState();
							
							throw cause;
						}
					}
				} finally {
					if (!isBatch) {
						this.statementExecuting.set(false);
					}
					
					if (timeoutTask != null) {
						timeoutTask.cancel();
						locallyScopedConnection.getCancelTimer().purge();
					}
				}
				
				return rs;
			} catch (NullPointerException npe) {
				checkClosed(); // we can't synchronize ourselves against async connection-close
				               // due to deadlock issues, so this is the next best thing for
				 			   // this particular corner case.
				
				throw npe;
			}
		}
	}

	/**
	 * A Prepared SQL query is executed and its ResultSet is returned
	 * 
	 * @return a ResultSet that contains the data produced by the query - never
	 *         null
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public java.sql.ResultSet executeQuery() throws SQLException {
		synchronized (checkClosed()) {
		
			MySQLConnection locallyScopedConn = this.connection;
			
			checkForDml(this.originalSql, this.firstCharOfStmt);
	
			CachedResultSetMetaData cachedMetadata = null;
	

			clearWarnings();

			boolean doStreaming = createStreamingResultSet();
			
			this.batchedGeneratedKeys = null;

			// Adjust net_write_timeout to a higher value if we're
			// streaming result sets. More often than not, someone runs into
			// an issue where they blow net_write_timeout when using this
			// feature, and if they're willing to hold a result set open
			// for 30 seconds or more, one more round-trip isn't going to hurt
			//
			// This is reset by RowDataDynamic.close().
			
			if (doStreaming
					&& this.connection.getNetTimeoutForStreamingResults() > 0) {
				
				java.sql.Statement stmt = null;
				
				try {
					stmt = this.connection.createStatement();
					
					((com.mysql.jdbc.StatementImpl)stmt).executeSimpleNonQuery(this.connection, "SET net_write_timeout=" 
							+ this.connection.getNetTimeoutForStreamingResults());
				} finally {
					if (stmt != null) {
						stmt.close();
					}
				}
			}
			
			Buffer sendPacket = fillSendPacket();

			if (!this.connection.getHoldResultsOpenOverStatementClose()) {
				if (!this.holdResultsOpenOverClose) {
					if (this.results != null) {
						this.results.realClose(false);
					}
					if (this.generatedKeysResults != null) {
						this.generatedKeysResults.realClose(false);
					}
					closeAllOpenResults();
				}
			}

			String oldCatalog = null;

			if (!locallyScopedConn.getCatalog().equals(this.currentCatalog)) {
				oldCatalog = locallyScopedConn.getCatalog();
				locallyScopedConn.setCatalog(this.currentCatalog);
			}

			//
			// Check if we have cached metadata for this query...
			//
			if (locallyScopedConn.getCacheResultSetMetadata()) {
				cachedMetadata = locallyScopedConn.getCachedMetaData(this.originalSql);
			}

			Field[] metadataFromCache = null;
			
			if (cachedMetadata != null) {
				metadataFromCache = cachedMetadata.fields;
			}
			
			if (locallyScopedConn.useMaxRows()) {
				// If there isn't a limit clause in the SQL
				// then limit the number of rows to return in
				// an efficient manner. Only do this if
				// setMaxRows() hasn't been used on any Statements
				// generated from the current Connection (saves
				// a query, and network traffic).
				if (this.hasLimitClause) {
					this.results = executeInternal(this.maxRows, sendPacket,
							createStreamingResultSet(), true,
							metadataFromCache, false);
				} else {
					if (this.maxRows <= 0) {
						executeSimpleNonQuery(locallyScopedConn,
								"SET SQL_SELECT_LIMIT=DEFAULT");
					} else {
						executeSimpleNonQuery(locallyScopedConn,
								"SET SQL_SELECT_LIMIT=" + this.maxRows);
					}

					this.results = executeInternal(-1, sendPacket,
							doStreaming, true,
							metadataFromCache, false);

					if (oldCatalog != null) {
						this.connection.setCatalog(oldCatalog);
					}
				}
			} else {
				this.results = executeInternal(-1, sendPacket,
						doStreaming, true,
						metadataFromCache, false);
			}

			if (oldCatalog != null) {
				locallyScopedConn.setCatalog(oldCatalog);
			}
			
			if (cachedMetadata != null) {
				locallyScopedConn.initializeResultsMetadataFromCache(this.originalSql,
						cachedMetadata, this.results);
			} else {
				if (locallyScopedConn.getCacheResultSetMetadata()) {
					locallyScopedConn.initializeResultsMetadataFromCache(this.originalSql,
							null /* will be created */, this.results);
				}
			}

			this.lastInsertId = this.results.getUpdateID();
	
			return this.results;
		}
	}
	
	/**
	 * Execute a SQL INSERT, UPDATE or DELETE statement. In addition, SQL
	 * statements that return nothing such as SQL DDL statements can be
	 * executed.
	 * 
	 * @return either the row count for INSERT, UPDATE or DELETE; or 0 for SQL
	 *         statements that return nothing.
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public int executeUpdate() throws SQLException {
		return executeUpdate(true, false);
	}

	/*
	 * We need this variant, because ServerPreparedStatement calls this for
	 * batched updates, which will end up clobbering the warnings and generated
	 * keys we need to gather for the batch.
	 */
	protected int executeUpdate(
			boolean clearBatchedGeneratedKeysAndWarnings, boolean isBatch) throws SQLException {
		synchronized (checkClosed()) {
			if (clearBatchedGeneratedKeysAndWarnings) {
				clearWarnings();
				this.batchedGeneratedKeys = null;
			}
	
			return executeUpdate(this.parameterValues, this.parameterStreams,
					this.isStream, this.streamLengths, this.isNull, isBatch);
		}
	}

	/**
	 * Added to allow batch-updates
	 * 
	 * @param batchedParameterStrings
	 *            string values used in single statement
	 * @param batchedParameterStreams
	 *            stream values used in single statement
	 * @param batchedIsStream
	 *            flags for streams used in single statement
	 * @param batchedStreamLengths
	 *            lengths of streams to be read.
	 * @param batchedIsNull
	 *            flags for parameters that are null
	 * 
	 * @return the update count
	 * 
	 * @throws SQLException
	 *             if a database error occurs
	 */
	protected int executeUpdate(byte[][] batchedParameterStrings,
			InputStream[] batchedParameterStreams, boolean[] batchedIsStream,
			int[] batchedStreamLengths, boolean[] batchedIsNull, boolean isReallyBatch)
			throws SQLException {

		synchronized (checkClosed()) {

			MySQLConnection locallyScopedConn = this.connection;
			
			if (locallyScopedConn.isReadOnly()) {
				throw SQLError.createSQLException(Messages.getString("PreparedStatement.34") //$NON-NLS-1$
						+ Messages.getString("PreparedStatement.35"), //$NON-NLS-1$
						SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
			}
	
			if ((this.firstCharOfStmt == 'S')
					&& isSelectQuery()) { //$NON-NLS-1$
				throw SQLError.createSQLException(Messages.getString("PreparedStatement.37"), //$NON-NLS-1$
						"01S03", getExceptionInterceptor()); //$NON-NLS-1$
			}
	
			if (!locallyScopedConn.getHoldResultsOpenOverStatementClose()) {
					if (this.results != null) {
						this.results.realClose(false);
					}
					if (this.generatedKeysResults != null) {
						this.generatedKeysResults.realClose(false);
					}
					closeAllOpenResults();
			}

			ResultSetInternalMethods rs = null;

			Buffer sendPacket = fillSendPacket(batchedParameterStrings,
					batchedParameterStreams, batchedIsStream,
					batchedStreamLengths);

			String oldCatalog = null;

			if (!locallyScopedConn.getCatalog().equals(this.currentCatalog)) {
				oldCatalog = locallyScopedConn.getCatalog();
				locallyScopedConn.setCatalog(this.currentCatalog);
			}

			//
			// Only apply max_rows to selects
			//
			if (locallyScopedConn.useMaxRows()) {
				executeSimpleNonQuery(locallyScopedConn,
						"SET SQL_SELECT_LIMIT=DEFAULT");
			}

			boolean oldInfoMsgState = false;

			if (this.retrieveGeneratedKeys) {
				oldInfoMsgState = locallyScopedConn.isReadInfoMsgEnabled();
				locallyScopedConn.setReadInfoMsgEnabled(true);
			}

			rs = executeInternal(-1, sendPacket, false, false, null, 
					isReallyBatch);

			if (this.retrieveGeneratedKeys) {
				locallyScopedConn.setReadInfoMsgEnabled(oldInfoMsgState);
				rs.setFirstCharOfQuery(this.firstCharOfStmt);
			}

			if (oldCatalog != null) {
				locallyScopedConn.setCatalog(oldCatalog);
			}

			this.results = rs;
	
			this.updateCount = rs.getUpdateCount();
			
			if (containsOnDuplicateKeyUpdateInSQL() && 
					this.compensateForOnDuplicateKeyUpdate) {
				if (this.updateCount == 2 || this.updateCount == 0) {
					this.updateCount = 1;
				}
			}
	
			int truncatedUpdateCount = 0;
	
			if (this.updateCount > Integer.MAX_VALUE) {
				truncatedUpdateCount = Integer.MAX_VALUE;
			} else {
				truncatedUpdateCount = (int) this.updateCount;
			}
	
			this.lastInsertId = rs.getUpdateID();
	
			return truncatedUpdateCount;
		}
	}

	protected boolean containsOnDuplicateKeyUpdateInSQL() {
		return this.parseInfo.isOnDuplicateKeyUpdate;
	}

	/**
	 * Creates the packet that contains the query to be sent to the server.
	 * 
	 * @return A Buffer filled with the query representing the
	 *         PreparedStatement.
	 * 
	 * @throws SQLException
	 *             if an error occurs.
	 */
	protected Buffer fillSendPacket() throws SQLException {
		synchronized (checkClosed()) {
			return fillSendPacket(this.parameterValues, this.parameterStreams,
					this.isStream, this.streamLengths);
		}
	}

	/**
	 * Creates the packet that contains the query to be sent to the server.
	 * 
	 * @param batchedParameterStrings
	 *            the parameters as strings
	 * @param batchedParameterStreams
	 *            the parameters as streams
	 * @param batchedIsStream
	 *            is the given parameter a stream?
	 * @param batchedStreamLengths
	 *            the lengths of the streams (if appropriate)
	 * 
	 * @return a Buffer filled with the query that represents this statement
	 * 
	 * @throws SQLException
	 *             if an error occurs.
	 */
	protected Buffer fillSendPacket(byte[][] batchedParameterStrings,
			InputStream[] batchedParameterStreams, boolean[] batchedIsStream,
			int[] batchedStreamLengths) throws SQLException {
		synchronized (checkClosed()) {
			Buffer sendPacket = this.connection.getIO().getSharedSendPacket();
	
			sendPacket.clear();
	
			sendPacket.writeByte((byte) MysqlDefs.QUERY);
	
			boolean useStreamLengths = this.connection
					.getUseStreamLengthsInPrepStmts();
	
			//
			// Try and get this allocation as close as possible
			// for BLOBs
			//
			int ensurePacketSize = 0;
	
			String statementComment = this.connection.getStatementComment();
			
			byte[] commentAsBytes = null;
			
			if (statementComment != null) {
				if (this.charConverter != null) {
					commentAsBytes = this.charConverter.toBytes(statementComment);
				} else {
					commentAsBytes = StringUtils.getBytes(statementComment, this.charConverter,
							this.charEncoding, this.connection
									.getServerCharacterEncoding(), this.connection
									.parserKnowsUnicode(), getExceptionInterceptor());
				}
				
				ensurePacketSize += commentAsBytes.length;
				ensurePacketSize += 6; // for /*[space] [space]*/
			}
		
			for (int i = 0; i < batchedParameterStrings.length; i++) {
				if (batchedIsStream[i] && useStreamLengths) {
					ensurePacketSize += batchedStreamLengths[i];
				}
			}
	
			if (ensurePacketSize != 0) {
				sendPacket.ensureCapacity(ensurePacketSize);
			}
	
			if (commentAsBytes != null) {
				sendPacket.writeBytesNoNull(Constants.SLASH_STAR_SPACE_AS_BYTES);
				sendPacket.writeBytesNoNull(commentAsBytes);
				sendPacket.writeBytesNoNull(Constants.SPACE_STAR_SLASH_SPACE_AS_BYTES);
			}
			
			for (int i = 0; i < batchedParameterStrings.length; i++) {
				checkAllParametersSet(batchedParameterStrings[i],
						batchedParameterStreams[i], i);
	
				sendPacket.writeBytesNoNull(this.staticSqlStrings[i]);
	
				if (batchedIsStream[i]) {
					streamToBytes(sendPacket, batchedParameterStreams[i], true,
							batchedStreamLengths[i], useStreamLengths);
				} else {
					sendPacket.writeBytesNoNull(batchedParameterStrings[i]);
				}
			}
	
			sendPacket
					.writeBytesNoNull(this.staticSqlStrings[batchedParameterStrings.length]);
	
			return sendPacket;
		}
	}

	private void checkAllParametersSet(byte[] parameterString,
			InputStream parameterStream, int columnIndex) throws SQLException {
		if ((parameterString == null)
				&& parameterStream == null) {

			throw SQLError.createSQLException(Messages
					.getString("PreparedStatement.40") //$NON-NLS-1$
					+ (columnIndex + 1), SQLError.SQL_STATE_WRONG_NO_OF_PARAMETERS, getExceptionInterceptor());
		}
	}

	/**
	 * Returns a prepared statement for the number of batched parameters, used when re-writing batch INSERTs.
	 */
	protected PreparedStatement prepareBatchedInsertSQL(MySQLConnection localConn, int numBatches) throws SQLException {
		synchronized (checkClosed()) {
			PreparedStatement pstmt = new PreparedStatement(localConn, "Rewritten batch of: " + this.originalSql, this.currentCatalog, this.parseInfo.getParseInfoForBatch(numBatches));
			pstmt.setRetrieveGeneratedKeys(this.retrieveGeneratedKeys);
			pstmt.rewrittenBatchSize = numBatches;
			
			return pstmt;
		}
	}

	protected void setRetrieveGeneratedKeys(boolean flag) throws SQLException {
		synchronized (checkClosed()) {
			this.retrieveGeneratedKeys = flag;
		}
	}

	protected int rewrittenBatchSize = 0;
	
	public int getRewrittenBatchSize() {
		return this.rewrittenBatchSize;
	}
	
	public String getNonRewrittenSql() throws SQLException {
		synchronized (checkClosed()) {
			int indexOfBatch = this.originalSql.indexOf(" of: ");
			
			if (indexOfBatch != -1) {
				return this.originalSql.substring(indexOfBatch + 5);
			}
			
			return this.originalSql;
		}
	}
	
	
	/**
	 * DOCUMENT ME!
	 * 
	 * @param parameterIndex
	 *            DOCUMENT ME!
	 * 
	 * @return DOCUMENT ME!
	 * 
	 * @throws SQLException
	 *             DOCUMENT ME!
	 */
	public byte[] getBytesRepresentation(int parameterIndex)
			throws SQLException {
		synchronized (checkClosed()) {
			if (this.isStream[parameterIndex]) {
				return streamToBytes(this.parameterStreams[parameterIndex], false,
						this.streamLengths[parameterIndex], this.connection
								.getUseStreamLengthsInPrepStmts());
			}
	
			byte[] parameterVal = this.parameterValues[parameterIndex];
	
			if (parameterVal == null) {
				return null;
			}
	
			if ((parameterVal[0] == '\'')
					&& (parameterVal[parameterVal.length - 1] == '\'')) {
				byte[] valNoQuotes = new byte[parameterVal.length - 2];
				System.arraycopy(parameterVal, 1, valNoQuotes, 0,
						parameterVal.length - 2);
	
				return valNoQuotes;
			}
	
			return parameterVal;
		}
	}
	
	/**
	 * Get bytes representation for a parameter in a statement batch.
	 * @param parameterIndex
	 * @param commandIndex
	 * @return
	 * @throws SQLException
	 */
	protected byte[] getBytesRepresentationForBatch(int parameterIndex, int commandIndex)
				throws SQLException {
		synchronized (checkClosed()) {
			Object batchedArg = batchedArgs.get(commandIndex);
			if (batchedArg instanceof String) {
				try {
					return (StringUtils.getBytes((String)batchedArg, charEncoding));
					
				} catch (UnsupportedEncodingException uue) {
					throw new RuntimeException(Messages
							.getString("PreparedStatement.32") //$NON-NLS-1$
							+ this.charEncoding
							+ Messages.getString("PreparedStatement.33")); //$NON-NLS-1$
				}
			}
			
			BatchParams params = (BatchParams)batchedArg;
			if (params.isStream[parameterIndex])
				return streamToBytes(params.parameterStreams[parameterIndex], false,
						params.streamLengths[parameterIndex],
						connection.getUseStreamLengthsInPrepStmts());
			byte parameterVal[] = params.parameterStrings[parameterIndex];
			if (parameterVal == null)
				return null;
			
			if ((parameterVal[0] == '\'')
					&& (parameterVal[parameterVal.length - 1] == '\'')) {
				byte[] valNoQuotes = new byte[parameterVal.length - 2];
				System.arraycopy(parameterVal, 1, valNoQuotes, 0,
						parameterVal.length - 2);
	
				return valNoQuotes;
			}
	
			return parameterVal;
		}
	}

	// --------------------------JDBC 2.0-----------------------------

	private final String getDateTimePattern(String dt, boolean toTime)
			throws Exception {
		//
		// Special case
		//
		int dtLength = (dt != null) ? dt.length() : 0;

		if ((dtLength >= 8) && (dtLength <= 10)) {
			int dashCount = 0;
			boolean isDateOnly = true;

			for (int i = 0; i < dtLength; i++) {
				char c = dt.charAt(i);

				if (!Character.isDigit(c) && (c != '-')) {
					isDateOnly = false;

					break;
				}

				if (c == '-') {
					dashCount++;
				}
			}

			if (isDateOnly && (dashCount == 2)) {
				return "yyyy-MM-dd"; //$NON-NLS-1$
			}
		}

		//
		// Special case - time-only
		//
		boolean colonsOnly = true;

		for (int i = 0; i < dtLength; i++) {
			char c = dt.charAt(i);

			if (!Character.isDigit(c) && (c != ':')) {
				colonsOnly = false;

				break;
			}
		}

		if (colonsOnly) {
			return "HH:mm:ss"; //$NON-NLS-1$
		}

		int n;
		int z;
		int count;
		int maxvecs;
		char c;
		char separator;
		StringReader reader = new StringReader(dt + " "); //$NON-NLS-1$
		ArrayList<Object[]> vec = new ArrayList<Object[]>();
		ArrayList<Object[]> vecRemovelist = new ArrayList<Object[]>();
		Object[] nv = new Object[3];
		Object[] v;
		nv[0] = Character.valueOf('y');
		nv[1] = new StringBuffer();
		nv[2] = Integer.valueOf(0);
		vec.add(nv);

		if (toTime) {
			nv = new Object[3];
			nv[0] = Character.valueOf('h');
			nv[1] = new StringBuffer();
			nv[2] = Integer.valueOf(0);
			vec.add(nv);
		}

		while ((z = reader.read()) != -1) {
			separator = (char) z;
			maxvecs = vec.size();

			for (count = 0; count < maxvecs; count++) {
				v = vec.get(count);
				n = ((Integer) v[2]).intValue();
				c = getSuccessor(((Character) v[0]).charValue(), n);

				if (!Character.isLetterOrDigit(separator)) {
					if ((c == ((Character) v[0]).charValue()) && (c != 'S')) {
						vecRemovelist.add(v);
					} else {
						((StringBuffer) v[1]).append(separator);

						if ((c == 'X') || (c == 'Y')) {
							v[2] = Integer.valueOf(4);
						}
					}
				} else {
					if (c == 'X') {
						c = 'y';
						nv = new Object[3];
						nv[1] = (new StringBuffer(((StringBuffer) v[1])
								.toString())).append('M');
						nv[0] = Character.valueOf('M');
						nv[2] = Integer.valueOf(1);
						vec.add(nv);
					} else if (c == 'Y') {
						c = 'M';
						nv = new Object[3];
						nv[1] = (new StringBuffer(((StringBuffer) v[1])
								.toString())).append('d');
						nv[0] = Character.valueOf('d');
						nv[2] = Integer.valueOf(1);
						vec.add(nv);
					}

					((StringBuffer) v[1]).append(c);

					if (c == ((Character) v[0]).charValue()) {
						v[2] = Integer.valueOf(n + 1);
					} else {
						v[0] = Character.valueOf(c);
						v[2] = Integer.valueOf(1);
					}
				}
			}

			int size = vecRemovelist.size();

			for (int i = 0; i < size; i++) {
				v = vecRemovelist.get(i);
				vec.remove(v);
			}

			vecRemovelist.clear();
		}

		int size = vec.size();

		for (int i = 0; i < size; i++) {
			v = vec.get(i);
			c = ((Character) v[0]).charValue();
			n = ((Integer) v[2]).intValue();

			boolean bk = getSuccessor(c, n) != c;
			boolean atEnd = (((c == 's') || (c == 'm') || ((c == 'h') && toTime)) && bk);
			boolean finishesAtDate = (bk && (c == 'd') && !toTime);
			boolean containsEnd = (((StringBuffer) v[1]).toString()
					.indexOf('W') != -1);

			if ((!atEnd && !finishesAtDate) || (containsEnd)) {
				vecRemovelist.add(v);
			}
		}

		size = vecRemovelist.size();

		for (int i = 0; i < size; i++) {
			vec.remove(vecRemovelist.get(i));
		}

		vecRemovelist.clear();
		v = vec.get(0); // might throw exception

		StringBuffer format = (StringBuffer) v[1];
		format.setLength(format.length() - 1);

		return format.toString();
	}

	/**
	 * The number, types and properties of a ResultSet's columns are provided by
	 * the getMetaData method.
	 * 
	 * @return the description of a ResultSet's columns
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 */
	public java.sql.ResultSetMetaData getMetaData()
			throws SQLException {

		synchronized (checkClosed()) {
			//
			// We could just tack on a LIMIT 0 here no matter what the 
			// statement, and check if a result set was returned or not,
			// but I'm not comfortable with that, myself, so we take
			// the "safer" road, and only allow metadata for _actual_
			// SELECTS (but not SHOWs).
			// 
			// CALL's are trapped further up and you end up with a 
			// CallableStatement anyway.
			//
			
			if (!isSelectQuery()) {
				return null;
			}
	
			PreparedStatement mdStmt = null;
			java.sql.ResultSet mdRs = null;
	
			if (this.pstmtResultMetaData == null) {
				try {
					mdStmt = new PreparedStatement(this.connection,
							this.originalSql, this.currentCatalog, this.parseInfo);
	
					mdStmt.setMaxRows(1);
	
					int paramCount = this.parameterValues.length;
	
					for (int i = 1; i <= paramCount; i++) {
						mdStmt.setString(i, ""); //$NON-NLS-1$
					}
	
					boolean hadResults = mdStmt.execute();
	
					if (hadResults) {
						mdRs = mdStmt.getResultSet();
	
						this.pstmtResultMetaData = mdRs.getMetaData();
					} else {
						this.pstmtResultMetaData = new ResultSetMetaData(
								new Field[0], 
								this.connection.getUseOldAliasMetadataBehavior(), getExceptionInterceptor());
					}
				} finally {
					SQLException sqlExRethrow = null;
	
					if (mdRs != null) {
						try {
							mdRs.close();
						} catch (SQLException sqlEx) {
							sqlExRethrow = sqlEx;
						}
	
						mdRs = null;
					}
	
					if (mdStmt != null) {
						try {
							mdStmt.close();
						} catch (SQLException sqlEx) {
							sqlExRethrow = sqlEx;
						}
	
						mdStmt = null;
					}
	
					if (sqlExRethrow != null) {
						throw sqlExRethrow;
					}
				}
			}
	
			return this.pstmtResultMetaData;
		}
	}

	protected boolean isSelectQuery() throws SQLException {
		synchronized (checkClosed()) {
			return StringUtils.startsWithIgnoreCaseAndWs(
					StringUtils.stripComments(this.originalSql,
							"'\"", "'\"", true, false, true, true), 
							"SELECT");
		}
	}

	/**
	 * @see PreparedStatement#getParameterMetaData()
	 */
	public ParameterMetaData getParameterMetaData() 
		throws SQLException {
		synchronized (checkClosed()) {
			if (this.parameterMetaData == null) {
				if (this.connection.getGenerateSimpleParameterMetadata()) {
					this.parameterMetaData = new MysqlParameterMetadata(this.parameterCount);
				} else {
					this.parameterMetaData = new MysqlParameterMetadata(
						null, this.parameterCount, getExceptionInterceptor());
				}
			}
			
			return this.parameterMetaData;
		}
}

	ParseInfo getParseInfo() {
		return this.parseInfo;
	}

	private final char getSuccessor(char c, int n) {
		return ((c == 'y') && (n == 2)) ? 'X'
				: (((c == 'y') && (n < 4)) ? 'y'
						: ((c == 'y') ? 'M'
								: (((c == 'M') && (n == 2)) ? 'Y'
										: (((c == 'M') && (n < 3)) ? 'M'
												: ((c == 'M') ? 'd'
														: (((c == 'd') && (n < 2)) ? 'd'
																: ((c == 'd') ? 'H'
																		: (((c == 'H') && (n < 2)) ? 'H'
																				: ((c == 'H') ? 'm'
																						: (((c == 'm') && (n < 2)) ? 'm'
																								: ((c == 'm') ? 's'
																										: (((c == 's') && (n < 2)) ? 's'
																												: 'W'))))))))))));
	}

	/**
	 * Used to escape binary data with hex for mb charsets
	 * 
	 * @param buf
	 * @param packet
	 * @param size
	 * @throws SQLException
	 */
	private final void hexEscapeBlock(byte[] buf, Buffer packet, int size)
			throws SQLException {
		for (int i = 0; i < size; i++) {
			byte b = buf[i];
			int lowBits = (b & 0xff) / 16;
			int highBits = (b & 0xff) % 16;

			packet.writeByte(HEX_DIGITS[lowBits]);
			packet.writeByte(HEX_DIGITS[highBits]);
		}
	}

	private void initializeFromParseInfo() throws SQLException {
		synchronized (checkClosed()) {
			this.staticSqlStrings = this.parseInfo.staticSql;
			this.hasLimitClause = this.parseInfo.foundLimitClause;
			this.isLoadDataQuery = this.parseInfo.foundLoadData;
			this.firstCharOfStmt = this.parseInfo.firstStmtChar;
	
			this.parameterCount = this.staticSqlStrings.length - 1;
	
			this.parameterValues = new byte[this.parameterCount][];
			this.parameterStreams = new InputStream[this.parameterCount];
			this.isStream = new boolean[this.parameterCount];
			this.streamLengths = new int[this.parameterCount];
			this.isNull = new boolean[this.parameterCount];
			this.parameterTypes = new int[this.parameterCount];
		
			clearParameters();
	
			for (int j = 0; j < this.parameterCount; j++) {
				this.isStream[j] = false;
			}
		}
	}

	boolean isNull(int paramIndex) throws SQLException {
		synchronized (checkClosed()) {
			return this.isNull[paramIndex];
		}
	}

	private final int readblock(InputStream i, byte[] b) throws SQLException {
		try {
			return i.read(b);
		} catch (Throwable ex) {
			SQLException sqlEx = SQLError.createSQLException(Messages.getString("PreparedStatement.56") //$NON-NLS-1$
					+ ex.getClass().getName(), SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
			sqlEx.initCause(ex);
			
			throw sqlEx;
		}
	}

	private final int readblock(InputStream i, byte[] b, int length)
			throws SQLException {
		try {
			int lengthToRead = length;

			if (lengthToRead > b.length) {
				lengthToRead = b.length;
			}

			return i.read(b, 0, lengthToRead);
		} catch (Throwable ex) {
			SQLException sqlEx = SQLError.createSQLException(Messages.getString("PreparedStatement.56") //$NON-NLS-1$
					+ ex.getClass().getName(), SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
			sqlEx.initCause(ex);
			
			throw sqlEx;
		}
	}

	/**
	 * Closes this statement, releasing all resources
	 * 
	 * @param calledExplicitly
	 *            was this called by close()?
	 * 
	 * @throws SQLException
	 *             if an error occurs
	 */
	protected void realClose(boolean calledExplicitly, 
			boolean closeOpenResults) throws SQLException {
		MySQLConnection locallyScopedConn;
		
		try {
			locallyScopedConn = checkClosed();
		} catch (SQLException sqlEx) {
			return; // already closed
		}
		
		synchronized (locallyScopedConn) {
		
			if (this.useUsageAdvisor) {
				if (this.numberOfExecutions <= 1) {
					String message = Messages.getString("PreparedStatement.43"); //$NON-NLS-1$
	
					this.eventSink.consumeEvent(new ProfilerEvent(
							ProfilerEvent.TYPE_WARN, "", this.currentCatalog, //$NON-NLS-1$
							this.connectionId, this.getId(), -1, System
									.currentTimeMillis(), 0, Constants.MILLIS_I18N,
									null,
							this.pointOfOrigin, message));
				}
			}
			
			super.realClose(calledExplicitly, closeOpenResults);
	
			this.dbmd = null;
			this.originalSql = null;
			this.staticSqlStrings = null;
			this.parameterValues = null;
			this.parameterStreams = null;
			this.isStream = null;
			this.streamLengths = null;
			this.isNull = null;
			this.streamConvertBuf = null;
			this.parameterTypes = null;
		}
	}

	/**
	 * JDBC 2.0 Set an Array parameter.
	 * 
	 * @param i
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            an object representing an SQL array
	 * 
	 * @throws SQLException
	 *             because this method is not implemented.
	 * @throws NotImplemented
	 *             DOCUMENT ME!
	 */
	public void setArray(int i, Array x) throws SQLException {
		throw SQLError.notImplemented();
	}

	/**
	 * When a very large ASCII value is input to a LONGVARCHAR parameter, it may
	 * be more practical to send it via a java.io.InputStream. JDBC will read
	 * the data from the stream as needed, until it reaches end-of-file. The
	 * JDBC driver will do any necessary conversion from ASCII to the database
	 * char format.
	 * 
	 * <P>
	 * <B>Note:</B> This stream object can either be a standard Java stream
	 * object or your own subclass that implements the standard interface.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * @param length
	 *            the number of bytes in the stream
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setAsciiStream(int parameterIndex, InputStream x,
			int length) throws SQLException {
		if (x == null) {
			setNull(parameterIndex, java.sql.Types.VARCHAR);
		} else {
			setBinaryStream(parameterIndex, x, length);
		}
	}

	/**
	 * Set a parameter to a java.math.BigDecimal value. The driver converts this
	 * to a SQL NUMERIC value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setBigDecimal(int parameterIndex, BigDecimal x)
			throws SQLException {
		if (x == null) {
			setNull(parameterIndex, java.sql.Types.DECIMAL);
		} else {
			setInternal(parameterIndex, StringUtils
					.fixDecimalExponent(StringUtils.consistentToString(x)));
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.DECIMAL;
		}
	}

	/**
	 * When a very large binary value is input to a LONGVARBINARY parameter, it
	 * may be more practical to send it via a java.io.InputStream. JDBC will
	 * read the data from the stream as needed, until it reaches end-of-file.
	 * 
	 * <P>
	 * <B>Note:</B> This stream object can either be a standard Java stream
	 * object or your own subclass that implements the standard interface.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * @param length
	 *            the number of bytes to read from the stream (ignored)
	 * 
	 * @throws SQLException
	 *             if a database access error occurs
	 */
	public void setBinaryStream(int parameterIndex, InputStream x, int length)
			throws SQLException {
		synchronized (checkClosed()) {
			if (x == null) {
				setNull(parameterIndex, java.sql.Types.BINARY);
			} else {
				int parameterIndexOffset = getParameterIndexOffset();
				
				if ((parameterIndex < 1)
						|| (parameterIndex > this.staticSqlStrings.length)) {
					throw SQLError.createSQLException(
							Messages.getString("PreparedStatement.2") //$NON-NLS-1$
									+ parameterIndex
									+ Messages.getString("PreparedStatement.3") + this.staticSqlStrings.length + Messages.getString("PreparedStatement.4"), //$NON-NLS-1$ //$NON-NLS-2$
							SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
				} else if (parameterIndexOffset == -1 && parameterIndex == 1) {
					throw SQLError.createSQLException("Can't set IN parameter for return value of stored function call.", 
							SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
				}
	
	
				this.parameterStreams[parameterIndex - 1 + parameterIndexOffset] = x;
				this.isStream[parameterIndex - 1 + parameterIndexOffset] = true;
				this.streamLengths[parameterIndex - 1 + parameterIndexOffset] = length;
				this.isNull[parameterIndex - 1 + parameterIndexOffset] = false;
				this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.BLOB;
			}
		}
	}

	public void setBlob(int parameterIndex, InputStream inputStream, long length)
			throws SQLException {
		setBinaryStream(parameterIndex, inputStream, (int)length);
	}

	/**
	 * JDBC 2.0 Set a BLOB parameter.
	 * 
	 * @param i
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            an object representing a BLOB
	 * 
	 * @throws SQLException
	 *             if a database error occurs
	 */
	public void setBlob(int i, java.sql.Blob x) throws SQLException {
		if (x == null) {
			setNull(i, Types.BLOB);
		} else {
			ByteArrayOutputStream bytesOut = new ByteArrayOutputStream();

			bytesOut.write('\'');
			escapeblockFast(x.getBytes(1, (int) x.length()), bytesOut, (int) x
					.length());
			bytesOut.write('\'');

			setInternal(i, bytesOut.toByteArray());
			
			this.parameterTypes[i - 1 + getParameterIndexOffset()] = Types.BLOB;
		}
	}

	/**
	 * Set a parameter to a Java boolean value. The driver converts this to a
	 * SQL BIT value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @throws SQLException
	 *             if a database access error occurs
	 */
	public void setBoolean(int parameterIndex, boolean x) throws SQLException {
		if (this.useTrueBoolean) {
			setInternal(parameterIndex, x ? "1" : "0"); //$NON-NLS-1$ //$NON-NLS-2$
		} else {
			setInternal(parameterIndex, x ? "'t'" : "'f'"); //$NON-NLS-1$ //$NON-NLS-2$
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.BOOLEAN;
		}
	}

	/**
	 * Set a parameter to a Java byte value. The driver converts this to a SQL
	 * TINYINT value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setByte(int parameterIndex, byte x) throws SQLException {
		setInternal(parameterIndex, String.valueOf(x));
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.TINYINT;
	}

	/**
	 * Set a parameter to a Java array of bytes. The driver converts this to a
	 * SQL VARBINARY or LONGVARBINARY (depending on the argument's size relative
	 * to the driver's limits on VARBINARYs) when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setBytes(int parameterIndex, byte[] x) throws SQLException {
		setBytes(parameterIndex, x, true, true);
		
		if (x != null) {
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.BINARY;
		}
	}

	protected void setBytes(int parameterIndex, byte[] x,
			boolean checkForIntroducer, boolean escapeForMBChars)
			throws SQLException {
		synchronized (checkClosed()) {
			if (x == null) {
				setNull(parameterIndex, java.sql.Types.BINARY);
			} else {
				String connectionEncoding = this.connection.getEncoding();
	
				try {
					if (this.connection.isNoBackslashEscapesSet()
							|| (escapeForMBChars 
									&& this.connection.getUseUnicode()
									&& connectionEncoding != null
									&& CharsetMapping.isMultibyteCharset(connectionEncoding))) {
		
						// Send as hex
		
						ByteArrayOutputStream bOut = new ByteArrayOutputStream(
								(x.length * 2) + 3);
						bOut.write('x');
						bOut.write('\'');
		
						for (int i = 0; i < x.length; i++) {
							int lowBits = (x[i] & 0xff) / 16;
							int highBits = (x[i] & 0xff) % 16;
		
							bOut.write(HEX_DIGITS[lowBits]);
							bOut.write(HEX_DIGITS[highBits]);
						}
		
						bOut.write('\'');
		
						setInternal(parameterIndex, bOut.toByteArray());
		
						return;
					}
				} catch (SQLException ex) {
					throw ex;
				} catch (RuntimeException ex) {
					SQLException sqlEx = SQLError.createSQLException(ex.toString(), SQLError.SQL_STATE_ILLEGAL_ARGUMENT, null);
					sqlEx.initCause(ex);
					throw sqlEx;
				}
	
				// escape them
				int numBytes = x.length;
	
				int pad = 2;
	
				boolean needsIntroducer = checkForIntroducer
						&& this.connection.versionMeetsMinimum(4, 1, 0);
	
				if (needsIntroducer) {
					pad += 7;
				}
	
				ByteArrayOutputStream bOut = new ByteArrayOutputStream(numBytes
						+ pad);
	
				if (needsIntroducer) {
					bOut.write('_');
					bOut.write('b');
					bOut.write('i');
					bOut.write('n');
					bOut.write('a');
					bOut.write('r');
					bOut.write('y');
				}
				bOut.write('\'');
	
				for (int i = 0; i < numBytes; ++i) {
					byte b = x[i];
	
					switch (b) {
					case 0: /* Must be escaped for 'mysql' */
						bOut.write('\\');
						bOut.write('0');
	
						break;
	
					case '\n': /* Must be escaped for logs */
						bOut.write('\\');
						bOut.write('n');
	
						break;
	
					case '\r':
						bOut.write('\\');
						bOut.write('r');
	
						break;
	
					case '\\':
						bOut.write('\\');
						bOut.write('\\');
	
						break;
	
					case '\'':
						bOut.write('\\');
						bOut.write('\'');
	
						break;
	
					case '"': /* Better safe than sorry */
						bOut.write('\\');
						bOut.write('"');
	
						break;
	
					case '\032': /* This gives problems on Win32 */
						bOut.write('\\');
						bOut.write('Z');
	
						break;
	
					default:
						bOut.write(b);
					}
				}
	
				bOut.write('\'');
	
				setInternal(parameterIndex, bOut.toByteArray());
			}
		}
	}

	/**
	 * Used by updatable result sets for refreshRow() because the parameter has
	 * already been escaped for updater or inserter prepared statements.
	 * 
	 * @param parameterIndex
	 *            the parameter to set.
	 * @param parameterAsBytes
	 *            the parameter as a string.
	 * 
	 * @throws SQLException
	 *             if an error occurs
	 */
	protected void setBytesNoEscape(int parameterIndex, byte[] parameterAsBytes)
			throws SQLException {
		byte[] parameterWithQuotes = new byte[parameterAsBytes.length + 2];
		parameterWithQuotes[0] = '\'';
		System.arraycopy(parameterAsBytes, 0, parameterWithQuotes, 1,
				parameterAsBytes.length);
		parameterWithQuotes[parameterAsBytes.length + 1] = '\'';

		setInternal(parameterIndex, parameterWithQuotes);
	}

	protected void setBytesNoEscapeNoQuotes(int parameterIndex,
			byte[] parameterAsBytes) throws SQLException {
		setInternal(parameterIndex, parameterAsBytes);
	}

	/**
	 * JDBC 2.0 When a very large UNICODE value is input to a LONGVARCHAR
	 * parameter, it may be more practical to send it via a java.io.Reader. JDBC
	 * will read the data from the stream as needed, until it reaches
	 * end-of-file. The JDBC driver will do any necessary conversion from
	 * UNICODE to the database char format.
	 * 
	 * <P>
	 * <B>Note:</B> This stream object can either be a standard Java stream
	 * object or your own subclass that implements the standard interface.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param reader
	 *            the java reader which contains the UNICODE data
	 * @param length
	 *            the number of characters in the stream
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 */
	public void setCharacterStream(int parameterIndex, java.io.Reader reader,
			int length) throws SQLException {
		synchronized (checkClosed()) {
			try {
				if (reader == null) {
					setNull(parameterIndex, Types.LONGVARCHAR);
				} else {
					char[] c = null;
					int len = 0;
	
					boolean useLength = this.connection
							.getUseStreamLengthsInPrepStmts();
	
					String forcedEncoding = this.connection.getClobCharacterEncoding();
					
					if (useLength && (length != -1)) {
						c = new char[length];
	
						int numCharsRead = readFully(reader, c, length); // blocks
						// until
						// all
						// read
	
						if (forcedEncoding == null) {
							setString(parameterIndex, new String(c, 0, numCharsRead));
						} else {
							try {
								setBytes(parameterIndex, StringUtils.getBytes(new String(c, 
										0, 
										numCharsRead), forcedEncoding));
							} catch (UnsupportedEncodingException uee) {
								throw SQLError.createSQLException("Unsupported character encoding " + 
										forcedEncoding, SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
							}
						}
					} else {
						c = new char[4096];
	
						StringBuffer buf = new StringBuffer();
	
						while ((len = reader.read(c)) != -1) {
							buf.append(c, 0, len);
						}
	
						if (forcedEncoding == null) {
							setString(parameterIndex, buf.toString());
						} else {
							try {
								setBytes(parameterIndex, 
										StringUtils.getBytes(buf.toString(), forcedEncoding));
							} catch (UnsupportedEncodingException uee) {
								throw SQLError.createSQLException("Unsupported character encoding " + 
										forcedEncoding, SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
							}
						}
					}
					
					this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.CLOB;
				}
			} catch (java.io.IOException ioEx) {
				throw SQLError.createSQLException(ioEx.toString(),
						SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
			}
		}
	}

	/**
	 * JDBC 2.0 Set a CLOB parameter.
	 * 
	 * @param i
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            an object representing a CLOB
	 * 
	 * @throws SQLException
	 *             if a database error occurs
	 */
	public void setClob(int i, Clob x) throws SQLException {
		synchronized (checkClosed()) {
			if (x == null) {
				setNull(i, Types.CLOB);
			} else {
	
				String forcedEncoding = this.connection.getClobCharacterEncoding();
				
				if (forcedEncoding == null) {
					setString(i, x.getSubString(1L, (int) x.length()));
				} else {
					try {
						setBytes(i, StringUtils.getBytes(x.getSubString(1L, 
								(int)x.length()), forcedEncoding));
					} catch (UnsupportedEncodingException uee) {
						throw SQLError.createSQLException("Unsupported character encoding " + 
								forcedEncoding, SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
					}
				}
			
				this.parameterTypes[i - 1 + getParameterIndexOffset()] = Types.CLOB;
			}
		}
	}

	/**
	 * Set a parameter to a java.sql.Date value. The driver converts this to a
	 * SQL DATE value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception java.sql.SQLException
	 *                if a database access error occurs
	 */
	public void setDate(int parameterIndex, java.sql.Date x)
			throws java.sql.SQLException {
		setDate(parameterIndex, x, null);
	}

	/**
	 * Set a parameter to a java.sql.Date value. The driver converts this to a
	 * SQL DATE value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            the parameter value
	 * @param cal
	 *            the calendar to interpret the date with
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 */
	public void setDate(int parameterIndex, java.sql.Date x, Calendar cal)
			throws SQLException {
		if (x == null) {
			setNull(parameterIndex, java.sql.Types.DATE);
		} else {
			checkClosed();
			
			if (!this.useLegacyDatetimeCode) {
				newSetDateInternal(parameterIndex, x, cal);
			} else {
				// FIXME: Have instance version of this, problem as it's
				// not thread-safe :(
				SimpleDateFormat dateFormatter = new SimpleDateFormat(
						"''yyyy-MM-dd''", Locale.US); //$NON-NLS-1$
				setInternal(parameterIndex, dateFormatter.format(x));
				
				this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.DATE;
			}
		}
	}

	/**
	 * Set a parameter to a Java double value. The driver converts this to a SQL
	 * DOUBLE value when it sends it to the database
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setDouble(int parameterIndex, double x) throws SQLException {
		synchronized (checkClosed()) {
			if (!this.connection.getAllowNanAndInf()
					&& (x == Double.POSITIVE_INFINITY
							|| x == Double.NEGATIVE_INFINITY || Double.isNaN(x))) {
				throw SQLError.createSQLException("'" + x
						+ "' is not a valid numeric or approximate numeric value",
						SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
	
			}
	
			setInternal(parameterIndex, StringUtils.fixDecimalExponent(String
					.valueOf(x)));
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.DOUBLE;
		}
	}

	/**
	 * Set a parameter to a Java float value. The driver converts this to a SQL
	 * FLOAT value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setFloat(int parameterIndex, float x) throws SQLException {
		setInternal(parameterIndex, StringUtils.fixDecimalExponent(String
				.valueOf(x)));
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.FLOAT;
	}

	/**
	 * Set a parameter to a Java int value. The driver converts this to a SQL
	 * INTEGER value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setInt(int parameterIndex, int x) throws SQLException {
		setInternal(parameterIndex, String.valueOf(x));
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.INTEGER;
	}

	protected final void setInternal(int paramIndex, byte[] val)
			throws SQLException {
		synchronized (checkClosed()) {
	
			int parameterIndexOffset = getParameterIndexOffset();
			
			checkBounds(paramIndex, parameterIndexOffset);
	
			this.isStream[paramIndex - 1 + parameterIndexOffset] = false;
			this.isNull[paramIndex - 1 + parameterIndexOffset] = false;
			this.parameterStreams[paramIndex - 1 + parameterIndexOffset] = null;
			this.parameterValues[paramIndex - 1 + parameterIndexOffset] = val;
		}
	}

	protected void checkBounds(int paramIndex, int parameterIndexOffset)
			throws SQLException {
		synchronized (checkClosed()) {
			if ((paramIndex < 1)) {
				throw SQLError.createSQLException(
						Messages.getString("PreparedStatement.49") //$NON-NLS-1$
								+ paramIndex
								+ Messages.getString("PreparedStatement.50"), SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor()); //$NON-NLS-1$
			} else if (paramIndex > this.parameterCount) {
				throw SQLError.createSQLException(
						Messages.getString("PreparedStatement.51") //$NON-NLS-1$
								+ paramIndex
								+ Messages.getString("PreparedStatement.52") + (this.parameterValues.length) + Messages.getString("PreparedStatement.53"), //$NON-NLS-1$ //$NON-NLS-2$
						SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
			} else if (parameterIndexOffset == -1 && paramIndex == 1) {
				throw SQLError.createSQLException("Can't set IN parameter for return value of stored function call.", 
						SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
			}
		}
	}

	protected final void setInternal(int paramIndex, String val)
			throws SQLException {
		synchronized (checkClosed()) {
		
			byte[] parameterAsBytes = null;
	
			if (this.charConverter != null) {
				parameterAsBytes = this.charConverter.toBytes(val);
			} else {
				parameterAsBytes = StringUtils.getBytes(val, this.charConverter,
						this.charEncoding, this.connection
								.getServerCharacterEncoding(), this.connection
								.parserKnowsUnicode(), getExceptionInterceptor());
			}
	
			setInternal(paramIndex, parameterAsBytes);
		}
	}

	/**
	 * Set a parameter to a Java long value. The driver converts this to a SQL
	 * BIGINT value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setLong(int parameterIndex, long x) throws SQLException {
		setInternal(parameterIndex, String.valueOf(x));
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.BIGINT;
	}

	/**
	 * Set a parameter to SQL NULL
	 * 
	 * <p>
	 * <B>Note:</B> You must specify the parameters SQL type (although MySQL
	 * ignores it)
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, etc...
	 * @param sqlType
	 *            the SQL type code defined in java.sql.Types
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setNull(int parameterIndex, int sqlType) throws SQLException {
		synchronized (checkClosed()) {
			setInternal(parameterIndex, "null"); //$NON-NLS-1$
			this.isNull[parameterIndex - 1 + getParameterIndexOffset()] = true;
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.NULL;
		}
	}

	/**
	 * Set a parameter to SQL NULL.
	 * 
	 * <P>
	 * <B>Note:</B> You must specify the parameter's SQL type.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param sqlType
	 *            SQL type code defined by java.sql.Types
	 * @param arg
	 *            argument parameters for null
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 */
	public void setNull(int parameterIndex, int sqlType, String arg)
			throws SQLException {
		setNull(parameterIndex, sqlType);
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.NULL;
	}

	private void setNumericObject(int parameterIndex, Object parameterObj, int targetSqlType, int scale) throws SQLException {
		Number parameterAsNum;

		if (parameterObj instanceof Boolean) {
			parameterAsNum = ((Boolean) parameterObj)
					.booleanValue() ? Integer.valueOf(1) : Integer.valueOf(
					0);
		} else if (parameterObj instanceof String) {
			switch (targetSqlType) {
			case Types.BIT:
				if ("1".equals(parameterObj)
						|| "0".equals(parameterObj)) {
					parameterAsNum = Integer.valueOf((String) parameterObj);
				} else {
					boolean parameterAsBoolean = "true"
							.equalsIgnoreCase((String) parameterObj);

				parameterAsNum = parameterAsBoolean ? Integer.valueOf(1)
						: Integer.valueOf(0);
				}
				
				break;

			case Types.TINYINT:
			case Types.SMALLINT:
			case Types.INTEGER:
				parameterAsNum = Integer
						.valueOf((String) parameterObj);

				break;

			case Types.BIGINT:
				parameterAsNum = Long
						.valueOf((String) parameterObj);

				break;

			case Types.REAL:
				parameterAsNum = Float
						.valueOf((String) parameterObj);

				break;

			case Types.FLOAT:
			case Types.DOUBLE:
				parameterAsNum = Double
						.valueOf((String) parameterObj);

				break;

			case Types.DECIMAL:
			case Types.NUMERIC:
			default:
				parameterAsNum = new java.math.BigDecimal(
						(String) parameterObj);
			}
		} else {
			parameterAsNum = (Number) parameterObj;
		}

		switch (targetSqlType) {
		case Types.BIT:
		case Types.TINYINT:
		case Types.SMALLINT:
		case Types.INTEGER:
			setInt(parameterIndex, parameterAsNum.intValue());

			break;

		case Types.BIGINT:
			setLong(parameterIndex, parameterAsNum.longValue());

			break;

		case Types.REAL:
			setFloat(parameterIndex, parameterAsNum.floatValue());

			break;

		case Types.FLOAT:
		case Types.DOUBLE:
			setDouble(parameterIndex, parameterAsNum.doubleValue());

			break;

		case Types.DECIMAL:
		case Types.NUMERIC:

			if (parameterAsNum instanceof java.math.BigDecimal) {
				BigDecimal scaledBigDecimal = null;

				try {
					scaledBigDecimal = ((java.math.BigDecimal) parameterAsNum)
							.setScale(scale);
				} catch (ArithmeticException ex) {
					try {
						scaledBigDecimal = ((java.math.BigDecimal) parameterAsNum)
								.setScale(scale,
										BigDecimal.ROUND_HALF_UP);
					} catch (ArithmeticException arEx) {
						throw SQLError.createSQLException(
								"Can't set scale of '"
										+ scale
										+ "' for DECIMAL argument '"
										+ parameterAsNum + "'",
								SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
					}
				}

				setBigDecimal(parameterIndex, scaledBigDecimal);
			} else if (parameterAsNum instanceof java.math.BigInteger) {
				setBigDecimal(
						parameterIndex,
						new java.math.BigDecimal(
								(java.math.BigInteger) parameterAsNum,
								scale));
			} else {
				setBigDecimal(parameterIndex,
						new java.math.BigDecimal(parameterAsNum
								.doubleValue()));
			}

			break;
		}
	}

	public void setObject(int parameterIndex, Object parameterObj)
			throws SQLException {
		synchronized (checkClosed()) {
			if (parameterObj == null) {
				setNull(parameterIndex, java.sql.Types.OTHER);
			} else {
				if (parameterObj instanceof Byte) {
					setInt(parameterIndex, ((Byte) parameterObj).intValue());
				} else if (parameterObj instanceof String) {
					setString(parameterIndex, (String) parameterObj);
				} else if (parameterObj instanceof BigDecimal) {
					setBigDecimal(parameterIndex, (BigDecimal) parameterObj);
				} else if (parameterObj instanceof Short) {
					setShort(parameterIndex, ((Short) parameterObj).shortValue());
				} else if (parameterObj instanceof Integer) {
					setInt(parameterIndex, ((Integer) parameterObj).intValue());
				} else if (parameterObj instanceof Long) {
					setLong(parameterIndex, ((Long) parameterObj).longValue());
				} else if (parameterObj instanceof Float) {
					setFloat(parameterIndex, ((Float) parameterObj).floatValue());
				} else if (parameterObj instanceof Double) {
					setDouble(parameterIndex, ((Double) parameterObj).doubleValue());
				} else if (parameterObj instanceof byte[]) {
					setBytes(parameterIndex, (byte[]) parameterObj);
				} else if (parameterObj instanceof java.sql.Date) {
					setDate(parameterIndex, (java.sql.Date) parameterObj);
				} else if (parameterObj instanceof Time) {
					setTime(parameterIndex, (Time) parameterObj);
				} else if (parameterObj instanceof Timestamp) {
					setTimestamp(parameterIndex, (Timestamp) parameterObj);
				} else if (parameterObj instanceof Boolean) {
					setBoolean(parameterIndex, ((Boolean) parameterObj)
							.booleanValue());
				} else if (parameterObj instanceof InputStream) {
					setBinaryStream(parameterIndex, (InputStream) parameterObj, -1);
				} else if (parameterObj instanceof java.sql.Blob) {
					setBlob(parameterIndex, (java.sql.Blob) parameterObj);
				} else if (parameterObj instanceof java.sql.Clob) {
					setClob(parameterIndex, (java.sql.Clob) parameterObj);
				} else if (this.connection.getTreatUtilDateAsTimestamp() && 
					parameterObj instanceof java.util.Date) {
					setTimestamp(parameterIndex, new Timestamp(
					((java.util.Date) parameterObj).getTime()));
				} else if (parameterObj instanceof BigInteger) {
					setString(parameterIndex, parameterObj.toString());
				} else {
					setSerializableObject(parameterIndex, parameterObj);
				}
			}
		}
	}
	

	/**
	 * DOCUMENT ME!
	 * 
	 * @param parameterIndex
	 *            DOCUMENT ME!
	 * @param parameterObj
	 *            DOCUMENT ME!
	 * @param targetSqlType
	 *            DOCUMENT ME!
	 * 
	 * @throws SQLException
	 *             DOCUMENT ME!
	 */
	public void setObject(int parameterIndex, Object parameterObj,
			int targetSqlType) throws SQLException {
		if (!(parameterObj instanceof BigDecimal)) {
			setObject(parameterIndex, parameterObj, targetSqlType, 0);
		} else {
			setObject(parameterIndex, parameterObj, targetSqlType,
					((BigDecimal)parameterObj).scale());
		}
	}

	/**
	 * Set the value of a parameter using an object; use the java.lang
	 * equivalent objects for integral values.
	 * 
	 * <P>
	 * The given Java object will be converted to the targetSqlType before being
	 * sent to the database.
	 * </p>
	 * 
	 * <P>
	 * note that this method may be used to pass database-specific abstract data
	 * types. This is done by using a Driver-specific Java type and using a
	 * targetSqlType of java.sql.Types.OTHER
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param parameterObj
	 *            the object containing the input parameter value
	 * @param targetSqlType
	 *            The SQL type to be send to the database
	 * @param scale
	 *            For java.sql.Types.DECIMAL or java.sql.Types.NUMERIC types
	 *            this is the number of digits after the decimal. For all other
	 *            types this value will be ignored.
	 * 
	 * @throws SQLException
	 *             if a database access error occurs
	 */
	public void setObject(int parameterIndex, Object parameterObj,
			int targetSqlType, int scale) throws SQLException {
		synchronized (checkClosed()) {
			if (parameterObj == null) {
				setNull(parameterIndex, java.sql.Types.OTHER);
			} else {
				try {
					switch (targetSqlType) {
					case Types.BOOLEAN:
						/*
						 From Table-B5 in the JDBC-3.0 Spec
					
						        T S I B R F D D N B B C V L
						        I M N I E L O E U I O H A O
						        N A T G A O U C M T O A R N
						        Y L E I L A B I E   L R C G
						        I L G N   T L M R   E   H V
						        N I E T     E A I   A   A A
						        T N R         L C   N   R R
						          T                       C
	                                                      H
					                                      A
						                                  R
						-----------------------------------
						Boolean x x x x x x x x x x x x x x
						*/
						
						if (parameterObj instanceof Boolean) {
							setBoolean(parameterIndex, ((Boolean)parameterObj).booleanValue());
							
							break;
						} else if (parameterObj instanceof String) {
							setBoolean(parameterIndex, "true".equalsIgnoreCase((String)parameterObj) ||
									!"0".equalsIgnoreCase((String)parameterObj));
							
							break;
						} else if (parameterObj instanceof Number) {
							int intValue = ((Number)parameterObj).intValue();
							
							setBoolean(parameterIndex, intValue != 0);
							
							break;
						} else {
							throw SQLError.createSQLException("No conversion from " + parameterObj.getClass().getName() + 
									" to Types.BOOLEAN possible.", SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
						}
						
						
					case Types.BIT:
					case Types.TINYINT:
					case Types.SMALLINT:
					case Types.INTEGER:
					case Types.BIGINT:
					case Types.REAL:
					case Types.FLOAT:
					case Types.DOUBLE:
					case Types.DECIMAL:
					case Types.NUMERIC:
	
						setNumericObject(parameterIndex, parameterObj, targetSqlType, scale);
	
						break;
	
					case Types.CHAR:
					case Types.VARCHAR:
					case Types.LONGVARCHAR:
						if (parameterObj instanceof BigDecimal) {
							setString(
									parameterIndex,
									(StringUtils
											.fixDecimalExponent(StringUtils
													.consistentToString((BigDecimal) parameterObj))));
						} else {
							setString(parameterIndex, parameterObj.toString());
						}
	
						break;
	
					case Types.CLOB:
	
						if (parameterObj instanceof java.sql.Clob) {
							setClob(parameterIndex, (java.sql.Clob) parameterObj);
						} else {
							setString(parameterIndex, parameterObj.toString());
						}
	
						break;
	
					case Types.BINARY:
					case Types.VARBINARY:
					case Types.LONGVARBINARY:
					case Types.BLOB:
	
						if (parameterObj instanceof byte[]) {
							setBytes(parameterIndex, (byte[]) parameterObj);
						} else if (parameterObj instanceof java.sql.Blob) {
							setBlob(parameterIndex, (java.sql.Blob) parameterObj);
						} else {
							setBytes(parameterIndex, StringUtils.getBytes(
									parameterObj.toString(), this.charConverter,
									this.charEncoding, this.connection
											.getServerCharacterEncoding(),
									this.connection.parserKnowsUnicode(), getExceptionInterceptor()));
						}
	
						break;
	
					case Types.DATE:
					case Types.TIMESTAMP:
	
						java.util.Date parameterAsDate;
	
						if (parameterObj instanceof String) {
							ParsePosition pp = new ParsePosition(0);
							java.text.DateFormat sdf = new java.text.SimpleDateFormat(
									getDateTimePattern((String) parameterObj, false), Locale.US);
							parameterAsDate = sdf.parse((String) parameterObj, pp);
						} else {
							parameterAsDate = (java.util.Date) parameterObj;
						}
	
						switch (targetSqlType) {
						case Types.DATE:
	
							if (parameterAsDate instanceof java.sql.Date) {
								setDate(parameterIndex,
										(java.sql.Date) parameterAsDate);
							} else {
								setDate(parameterIndex, new java.sql.Date(
										parameterAsDate.getTime()));
							}
	
							break;
	
						case Types.TIMESTAMP:
	
							if (parameterAsDate instanceof java.sql.Timestamp) {
								setTimestamp(parameterIndex,
										(java.sql.Timestamp) parameterAsDate);
							} else {
								setTimestamp(parameterIndex,
										new java.sql.Timestamp(parameterAsDate
												.getTime()));
							}
	
							break;
						}
	
						break;
	
					case Types.TIME:
	
						if (parameterObj instanceof String) {
							java.text.DateFormat sdf = new java.text.SimpleDateFormat(
									getDateTimePattern((String) parameterObj, true), Locale.US);
							setTime(parameterIndex, new java.sql.Time(sdf.parse(
									(String) parameterObj).getTime()));
						} else if (parameterObj instanceof Timestamp) {
							Timestamp xT = (Timestamp) parameterObj;
							setTime(parameterIndex, new java.sql.Time(xT.getTime()));
						} else {
							setTime(parameterIndex, (java.sql.Time) parameterObj);
						}
	
						break;
	
					case Types.OTHER:
						setSerializableObject(parameterIndex, parameterObj);
	
						break;
	
					default:
						throw SQLError.createSQLException(Messages
								.getString("PreparedStatement.16"), //$NON-NLS-1$
								SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
					}
				} catch (Exception ex) {
					if (ex instanceof SQLException) {
						throw (SQLException) ex;
					}
	
					SQLException sqlEx = SQLError.createSQLException(
							Messages.getString("PreparedStatement.17") //$NON-NLS-1$
									+ parameterObj.getClass().toString()
									+ Messages.getString("PreparedStatement.18") //$NON-NLS-1$
									+ ex.getClass().getName()
									+ Messages.getString("PreparedStatement.19") + ex.getMessage(), //$NON-NLS-1$
							SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
					
					sqlEx.initCause(ex);
					
					throw sqlEx;
				}
			}
		}
	}

	protected int setOneBatchedParameterSet(
			java.sql.PreparedStatement batchedStatement, int batchedParamIndex,
			Object paramSet) throws SQLException {
		BatchParams paramArg = (BatchParams)paramSet;
		
		boolean[] isNullBatch = paramArg.isNull;
		boolean[] isStreamBatch = paramArg.isStream;

		for (int j = 0; j < isNullBatch.length; j++) {
			if (isNullBatch[j]) {
				batchedStatement.setNull(batchedParamIndex++, Types.NULL);
			} else {
				if (isStreamBatch[j]) {
					batchedStatement.setBinaryStream(batchedParamIndex++,
							paramArg.parameterStreams[j],
							paramArg.streamLengths[j]);
				} else {
					((com.mysql.jdbc.PreparedStatement) batchedStatement)
							.setBytesNoEscapeNoQuotes(batchedParamIndex++,
									paramArg.parameterStrings[j]);
				}
			}
		}

		return batchedParamIndex;
	}
	
	/**
	 * JDBC 2.0 Set a REF(&lt;structured-type&gt;) parameter.
	 * 
	 * @param i
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            an object representing data of an SQL REF Type
	 * 
	 * @throws SQLException
	 *             if a database error occurs
	 * @throws NotImplemented
	 *             DOCUMENT ME!
	 */
	public void setRef(int i, Ref x) throws SQLException {
		throw SQLError.notImplemented();
	}


	/**
	 * Sets the value for the placeholder as a serialized Java object (used by
	 * various forms of setObject()
	 * 
	 * @param parameterIndex
	 *            DOCUMENT ME!
	 * @param parameterObj
	 *            DOCUMENT ME!
	 * 
	 * @throws SQLException
	 *             DOCUMENT ME!
	 */
	private final void setSerializableObject(int parameterIndex,
			Object parameterObj) throws SQLException {
		try {
			ByteArrayOutputStream bytesOut = new ByteArrayOutputStream();
			ObjectOutputStream objectOut = new ObjectOutputStream(bytesOut);
			objectOut.writeObject(parameterObj);
			objectOut.flush();
			objectOut.close();
			bytesOut.flush();
			bytesOut.close();

			byte[] buf = bytesOut.toByteArray();
			ByteArrayInputStream bytesIn = new ByteArrayInputStream(buf);
			setBinaryStream(parameterIndex, bytesIn, buf.length);
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.BINARY;
		} catch (Exception ex) {
			SQLException sqlEx = SQLError.createSQLException(Messages.getString("PreparedStatement.54") //$NON-NLS-1$
					+ ex.getClass().getName(),
					SQLError.SQL_STATE_ILLEGAL_ARGUMENT, getExceptionInterceptor());
			sqlEx.initCause(ex);
			
			throw sqlEx;
		}
	}

	/**
	 * Set a parameter to a Java short value. The driver converts this to a SQL
	 * SMALLINT value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setShort(int parameterIndex, short x) throws SQLException {
		setInternal(parameterIndex, String.valueOf(x));
		
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.SMALLINT;
	}

	/**
	 * Set a parameter to a Java String value. The driver converts this to a SQL
	 * VARCHAR or LONGVARCHAR value (depending on the arguments size relative to
	 * the driver's limits on VARCHARs) when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setString(int parameterIndex, String x) throws SQLException {
		synchronized (checkClosed()) {
			// if the passed string is null, then set this column to null
			if (x == null) {
				setNull(parameterIndex, Types.CHAR);
			} else {
				checkClosed();
				
				int stringLength = x.length();
	
				if (this.connection.isNoBackslashEscapesSet()) {
					// Scan for any nasty chars
	
					boolean needsHexEscape = isEscapeNeededForString(x,
							stringLength);
	
					if (!needsHexEscape) {
						byte[] parameterAsBytes = null;
	
						StringBuffer quotedString = new StringBuffer(x.length() + 2);
						quotedString.append('\'');
						quotedString.append(x);
						quotedString.append('\'');
						
						if (!this.isLoadDataQuery) {
							parameterAsBytes = StringUtils.getBytes(quotedString.toString(),
									this.charConverter, this.charEncoding,
									this.connection.getServerCharacterEncoding(),
									this.connection.parserKnowsUnicode(), getExceptionInterceptor());
						} else {
							// Send with platform character encoding
							parameterAsBytes = StringUtils.getBytes(quotedString.toString());
						}
						
						setInternal(parameterIndex, parameterAsBytes);
					} else {
						byte[] parameterAsBytes = null;
	
						if (!this.isLoadDataQuery) {
							parameterAsBytes = StringUtils.getBytes(x,
									this.charConverter, this.charEncoding,
									this.connection.getServerCharacterEncoding(),
									this.connection.parserKnowsUnicode(), getExceptionInterceptor());
						} else {
							// Send with platform character encoding
							parameterAsBytes = StringUtils.getBytes(x);
						}
						
						setBytes(parameterIndex, parameterAsBytes);
					}
	
					return;
				}
	
				String parameterAsString = x;
				boolean needsQuoted = true;
				
				if (this.isLoadDataQuery || isEscapeNeededForString(x, stringLength)) {
					needsQuoted = false; // saves an allocation later
					
					StringBuffer buf = new StringBuffer((int) (x.length() * 1.1));
					
					buf.append('\'');
		
					//
					// Note: buf.append(char) is _faster_ than
					// appending in blocks, because the block
					// append requires a System.arraycopy()....
					// go figure...
					//
		
					for (int i = 0; i < stringLength; ++i) {
						char c = x.charAt(i);
		
						switch (c) {
						case 0: /* Must be escaped for 'mysql' */
							buf.append('\\');
							buf.append('0');
		
							break;
		
						case '\n': /* Must be escaped for logs */
							buf.append('\\');
							buf.append('n');
		
							break;
		
						case '\r':
							buf.append('\\');
							buf.append('r');
		
							break;
		
						case '\\':
							buf.append('\\');
							buf.append('\\');
		
							break;
		
						case '\'':
							buf.append('\\');
							buf.append('\'');
		
							break;
		
						case '"': /* Better safe than sorry */
							if (this.usingAnsiMode) {
								buf.append('\\');
							}
		
							buf.append('"');
		
							break;
		
						case '\032': /* This gives problems on Win32 */
							buf.append('\\');
							buf.append('Z');
		
							break;
	
						case '\u00a5':
						case '\u20a9':
							// escape characters interpreted as backslash by mysql
							if(charsetEncoder != null) {
								CharBuffer cbuf = CharBuffer.allocate(1);
								ByteBuffer bbuf = ByteBuffer.allocate(1); 
								cbuf.put(c);
								cbuf.position(0);
								charsetEncoder.encode(cbuf, bbuf, true);
								if(bbuf.get(0) == '\\') {
									buf.append('\\');
								}
							}
							// fall through
	
						default:
							buf.append(c);
						}
					}
		
					buf.append('\'');
		
					parameterAsString = buf.toString();
				}
	
				byte[] parameterAsBytes = null;
	
				if (!this.isLoadDataQuery) {
					if (needsQuoted) {
						parameterAsBytes = StringUtils.getBytesWrapped(parameterAsString,
							'\'', '\'', this.charConverter, this.charEncoding, this.connection
									.getServerCharacterEncoding(), this.connection
									.parserKnowsUnicode(), getExceptionInterceptor());
					} else {
						parameterAsBytes = StringUtils.getBytes(parameterAsString,
								this.charConverter, this.charEncoding, this.connection
										.getServerCharacterEncoding(), this.connection
										.parserKnowsUnicode(), getExceptionInterceptor());
					}
				} else {
					// Send with platform character encoding
					parameterAsBytes = StringUtils.getBytes(parameterAsString);
				}
	
				setInternal(parameterIndex, parameterAsBytes);
				
				this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.VARCHAR;
			}
		}
	}

	private boolean isEscapeNeededForString(String x, int stringLength) {
		boolean needsHexEscape = false;

		for (int i = 0; i < stringLength; ++i) {
			char c = x.charAt(i);

			switch (c) {
			case 0: /* Must be escaped for 'mysql' */

				needsHexEscape = true;
				break;

			case '\n': /* Must be escaped for logs */
				needsHexEscape = true;

				break;

			case '\r':
				needsHexEscape = true;
				break;

			case '\\':
				needsHexEscape = true;

				break;

			case '\'':
				needsHexEscape = true;

				break;

			case '"': /* Better safe than sorry */
				needsHexEscape = true;

				break;

			case '\032': /* This gives problems on Win32 */
				needsHexEscape = true;
				break;
			}

			if (needsHexEscape) {
				break; // no need to scan more
			}
		}
		return needsHexEscape;
	}

	/**
	 * Set a parameter to a java.sql.Time value. The driver converts this to a
	 * SQL TIME value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            the parameter value
	 * @param cal
	 *            the cal specifying the timezone
	 * 
	 * @throws SQLException
	 *             if a database-access error occurs.
	 */
	public void setTime(int parameterIndex, java.sql.Time x, Calendar cal)
			throws SQLException {
		setTimeInternal(parameterIndex, x, cal, cal.getTimeZone(), true);
	}

	/**
	 * Set a parameter to a java.sql.Time value. The driver converts this to a
	 * SQL TIME value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...));
	 * @param x
	 *            the parameter value
	 * 
	 * @throws java.sql.SQLException
	 *             if a database access error occurs
	 */
	public void setTime(int parameterIndex, Time x)
			throws java.sql.SQLException {
		setTimeInternal(parameterIndex, x, null, Util.getDefaultTimeZone(), false);
	}

	/**
	 * Set a parameter to a java.sql.Time value. The driver converts this to a
	 * SQL TIME value when it sends it to the database, using the given
	 * timezone.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...));
	 * @param x
	 *            the parameter value
	 * @param tz
	 *            the timezone to use
	 * 
	 * @throws java.sql.SQLException
	 *             if a database access error occurs
	 */
	private void setTimeInternal(int parameterIndex, Time x, Calendar targetCalendar,
			TimeZone tz,
			boolean rollForward) throws java.sql.SQLException {
		synchronized (checkClosed()) {
			if (x == null) {
				setNull(parameterIndex, java.sql.Types.TIME);
			} else {
				checkClosed();
				
				if (!this.useLegacyDatetimeCode) {
					newSetTimeInternal(parameterIndex, x, targetCalendar);
				} else {
					Calendar sessionCalendar = getCalendarInstanceForSessionOrNew();
					
					synchronized (sessionCalendar) {
						x = TimeUtil.changeTimezone(this.connection, 
								sessionCalendar,
								targetCalendar,
								 x, tz, this.connection
								.getServerTimezoneTZ(), rollForward);
					}
					
					setInternal(parameterIndex, "'" + x.toString() + "'"); //$NON-NLS-1$ //$NON-NLS-2$
				}
				
				this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.TIME;
			}
		}
	}

	/**
	 * Set a parameter to a java.sql.Timestamp value. The driver converts this
	 * to a SQL TIMESTAMP value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            the parameter value
	 * @param cal
	 *            the calendar specifying the timezone to use
	 * 
	 * @throws SQLException
	 *             if a database-access error occurs.
	 */
	public void setTimestamp(int parameterIndex, java.sql.Timestamp x,
			Calendar cal) throws SQLException {
		setTimestampInternal(parameterIndex, x, cal, cal.getTimeZone(), true);
	}

	/**
	 * Set a parameter to a java.sql.Timestamp value. The driver converts this
	 * to a SQL TIMESTAMP value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @throws java.sql.SQLException
	 *             if a database access error occurs
	 */
	public void setTimestamp(int parameterIndex, Timestamp x)
			throws java.sql.SQLException {
		setTimestampInternal(parameterIndex, x, null, Util.getDefaultTimeZone(), false);
	}

	/**
	 * Set a parameter to a java.sql.Timestamp value. The driver converts this
	 * to a SQL TIMESTAMP value when it sends it to the database.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param x
	 *            the parameter value
	 * @param tz
	 *            the timezone to use
	 * 
	 * @throws SQLException
	 *             if a database-access error occurs.
	 */
	private void setTimestampInternal(int parameterIndex,
			Timestamp x, Calendar targetCalendar,
			TimeZone tz, boolean rollForward) throws SQLException {
		synchronized (checkClosed()) {
			if (x == null) {
				setNull(parameterIndex, java.sql.Types.TIMESTAMP);
			} else {
				checkClosed();
				
				if (!this.useLegacyDatetimeCode) {
					newSetTimestampInternal(parameterIndex, x, targetCalendar);
				} else {
					String timestampString = null;
	
					Calendar sessionCalendar = this.connection.getUseJDBCCompliantTimezoneShift() ?
							this.connection.getUtcCalendar() : 
								getCalendarInstanceForSessionOrNew();
						
					synchronized (sessionCalendar) {
						x = TimeUtil.changeTimezone(this.connection, 
								sessionCalendar,
								targetCalendar,
								x, tz, this.connection
							.getServerTimezoneTZ(), rollForward);
					}
		
					if (this.connection.getUseSSPSCompatibleTimezoneShift()) {
						doSSPSCompatibleTimezoneShift(parameterIndex, x, sessionCalendar);
					} else {
						synchronized (this) {
							if (this.tsdf == null) {
								this.tsdf = new SimpleDateFormat("''yyyy-MM-dd HH:mm:ss''", Locale.US); //$NON-NLS-1$
							}
							
							timestampString = this.tsdf.format(x);
							
							if (false) { // not so long as Bug#50774 is around
								StringBuffer buf = new StringBuffer();
								buf.append(timestampString);
								int nanos = x.getNanos();
								
								if (nanos != 0) {
									buf.append('.');
									buf.append(formatNanos(nanos));
								}
								
								buf.append('\'');
							}
							
							setInternal(parameterIndex, timestampString); // SimpleDateFormat is not
																		  // thread-safe
						}
					}
				}
				
				this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.TIMESTAMP;
			}
		}
	}
	
	private void newSetTimestampInternal(int parameterIndex,
			Timestamp x, Calendar targetCalendar) throws SQLException {
		synchronized (checkClosed()) {
			if (this.tsdf == null) {
				this.tsdf = new SimpleDateFormat("''yyyy-MM-dd HH:mm:ss", Locale.US); //$NON-NLS-1$
			}
			
			String timestampString = null;
			
			if (targetCalendar != null) {
				targetCalendar.setTime(x);
				this.tsdf.setTimeZone(targetCalendar.getTimeZone());
				
				timestampString = this.tsdf.format(x);
			} else {
				this.tsdf.setTimeZone(this.connection.getServerTimezoneTZ());
				timestampString = this.tsdf.format(x);
			}
	
			StringBuffer buf = new StringBuffer();
			buf.append(timestampString);
			buf.append('.');
			buf.append(formatNanos(x.getNanos()));
			buf.append('\'');
			
			setInternal(parameterIndex, buf.toString()); 
		}
	}
	
	private String formatNanos(int nanos) {
		if (!this.serverSupportsFracSecs || nanos == 0) {
		    return "0";
		}
		
		boolean usingMicros = true;
		
		if (usingMicros) {
			nanos /= 1000;
		}
		
		final int digitCount = usingMicros ? 6 : 9;
		
	    String nanosString = Integer.toString(nanos);
	    final String zeroPadding = usingMicros ? "000000" : "000000000";
	    
	    nanosString = zeroPadding.substring(0, (digitCount-nanosString.length())) +
		nanosString; 
	    
	    int pos = digitCount-1; // the end, we're padded to the end by the code above
	    
	    while (nanosString.charAt(pos) == '0') {
	    	pos--;
	    }
	
	    nanosString = nanosString.substring(0, pos + 1);
	    
	    return nanosString;
	}
	
	private void newSetTimeInternal(int parameterIndex,
			Time x, Calendar targetCalendar) throws SQLException {
		synchronized (checkClosed()) {
			if (this.tdf == null) {
				this.tdf = new SimpleDateFormat("''HH:mm:ss''", Locale.US); //$NON-NLS-1$
				
			}
	
			String timeString = null;
			
			if (targetCalendar != null) {
				targetCalendar.setTime(x);
				this.tdf.setTimeZone(targetCalendar.getTimeZone());
				
				timeString = this.tdf.format(x);
			} else {
				this.tdf.setTimeZone(this.connection.getServerTimezoneTZ());
				timeString = this.tdf.format(x);
			}
	
			setInternal(parameterIndex, timeString);
		}
	}
	
	private void newSetDateInternal(int parameterIndex,
			Date x, Calendar targetCalendar) throws SQLException {
		synchronized (checkClosed()) {
			if (this.ddf == null) {
				this.ddf = new SimpleDateFormat("''yyyy-MM-dd''", Locale.US); //$NON-NLS-1$
			}
	
			String timeString = null;
			
			if (targetCalendar != null) {
				targetCalendar.setTime(x);
				this.ddf.setTimeZone(targetCalendar.getTimeZone());
				
				timeString = this.ddf.format(x);
			} else {
				this.ddf.setTimeZone(this.connection.getServerTimezoneTZ());
				timeString = this.ddf.format(x);
			}
	
			setInternal(parameterIndex, timeString);
		}
	}

	private void doSSPSCompatibleTimezoneShift(int parameterIndex, Timestamp x, Calendar sessionCalendar) throws SQLException {
		synchronized (checkClosed()) {
			Calendar sessionCalendar2 = (this.connection
					.getUseJDBCCompliantTimezoneShift()) ? this.connection
					.getUtcCalendar()
					: getCalendarInstanceForSessionOrNew();
	
			synchronized (sessionCalendar2) {
				java.util.Date oldTime = sessionCalendar2.getTime();
	
				try {
					sessionCalendar2.setTime(x);
	
					int year = sessionCalendar2.get(Calendar.YEAR);
					int month = sessionCalendar2.get(Calendar.MONTH) + 1;
					int date = sessionCalendar2.get(Calendar.DAY_OF_MONTH);
	
					int hour = sessionCalendar2.get(Calendar.HOUR_OF_DAY);
					int minute = sessionCalendar2.get(Calendar.MINUTE);
					int seconds = sessionCalendar2.get(Calendar.SECOND);
	
					StringBuffer tsBuf = new StringBuffer();
	
					tsBuf.append('\'');
					tsBuf.append(year);
	
					tsBuf.append("-");
	
					if (month < 10) {
						tsBuf.append('0');
					}
	
					tsBuf.append(month);
	
					tsBuf.append('-');
	
					if (date < 10) {
						tsBuf.append('0');
					}
	
					tsBuf.append(date);
	
					tsBuf.append(' ');
	
					if (hour < 10) {
						tsBuf.append('0');
					}
	
					tsBuf.append(hour);
	
					tsBuf.append(':');
	
					if (minute < 10) {
						tsBuf.append('0');
					}
	
					tsBuf.append(minute);
	
					tsBuf.append(':');
	
					if (seconds < 10) {
						tsBuf.append('0');
					}
	
					tsBuf.append(seconds);
	
					tsBuf.append('.');
					tsBuf.append(formatNanos(x.getNanos()));
					tsBuf.append('\'');
	
					setInternal(parameterIndex, tsBuf.toString());
	
				} finally {
					sessionCalendar.setTime(oldTime);
				}
			}
		}
	}

	/**
	 * When a very large Unicode value is input to a LONGVARCHAR parameter, it
	 * may be more practical to send it via a java.io.InputStream. JDBC will
	 * read the data from the stream as needed, until it reaches end-of-file.
	 * The JDBC driver will do any necessary conversion from UNICODE to the
	 * database char format.
	 * 
	 * <P>
	 * <B>Note:</B> This stream object can either be a standard Java stream
	 * object or your own subclass that implements the standard interface.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * @param length
	 *            the number of bytes to read from the stream
	 * 
	 * @throws SQLException
	 *             if a database access error occurs
	 * 
	 * @deprecated
	 */
	public void setUnicodeStream(int parameterIndex, InputStream x, int length)
			throws SQLException {
		if (x == null) {
			setNull(parameterIndex, java.sql.Types.VARCHAR);
		} else {
			setBinaryStream(parameterIndex, x, length);
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.CLOB;
		}
	}

	/**
	 * @see PreparedStatement#setURL(int, URL)
	 */
	public void setURL(int parameterIndex, URL arg) throws SQLException {
		if (arg != null) {
			setString(parameterIndex, arg.toString());
			
			this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.DATALINK;
		} else {
			setNull(parameterIndex, Types.CHAR);
		}
	}

	private final void streamToBytes(Buffer packet, InputStream in,
			boolean escape, int streamLength, boolean useLength)
			throws SQLException {
		synchronized (checkClosed()) {
			try {
				if (streamConvertBuf == null) {
					streamConvertBuf = new byte[4096];
				}
				
				String connectionEncoding = this.connection.getEncoding();
	
				boolean hexEscape = false;
	
				try {
					if (this.connection.isNoBackslashEscapesSet()
							|| (this.connection.getUseUnicode() 
									&& connectionEncoding != null
									&& CharsetMapping.isMultibyteCharset(connectionEncoding)
									&& !this.connection.parserKnowsUnicode())) {
						hexEscape = true;
					}
				} catch (RuntimeException ex) {
					SQLException sqlEx = SQLError.createSQLException(ex.toString(), SQLError.SQL_STATE_ILLEGAL_ARGUMENT, null);
					sqlEx.initCause(ex);
					throw sqlEx;
				}
	
				if (streamLength == -1) {
					useLength = false;
				}
	
				int bc = -1;
	
				if (useLength) {
					bc = readblock(in, streamConvertBuf, streamLength);
				} else {
					bc = readblock(in, streamConvertBuf);
				}
	
				int lengthLeftToRead = streamLength - bc;
	
				if (hexEscape) {
					packet.writeStringNoNull("x");
				} else if (this.connection.getIO().versionMeetsMinimum(4, 1, 0)) {
					packet.writeStringNoNull("_binary");
				}
	
				if (escape) {
					packet.writeByte((byte) '\'');
				}
	
				while (bc > 0) {
					if (hexEscape) {
						hexEscapeBlock(streamConvertBuf, packet, bc);
					} else if (escape) {
						escapeblockFast(streamConvertBuf, packet, bc);
					} else {
						packet.writeBytesNoNull(streamConvertBuf, 0, bc);
					}
	
					if (useLength) {
						bc = readblock(in, streamConvertBuf, lengthLeftToRead);
	
						if (bc > 0) {
							lengthLeftToRead -= bc;
						}
					} else {
						bc = readblock(in, streamConvertBuf);
					}
				}
	
				if (escape) {
					packet.writeByte((byte) '\'');
				}
			} finally {
				if (this.connection.getAutoClosePStmtStreams()) {
					try {
						in.close();
					} catch (IOException ioEx) {
						;
					}
	
					in = null;
				}
			}
		}
	}

	private final byte[] streamToBytes(InputStream in, boolean escape,
			int streamLength, boolean useLength) throws SQLException {
		synchronized (checkClosed()) {
			try {
				if (streamConvertBuf == null) {
					streamConvertBuf = new byte[4096];
				}
				if (streamLength == -1) {
					useLength = false;
				}
	
				ByteArrayOutputStream bytesOut = new ByteArrayOutputStream();
	
				int bc = -1;
	
				if (useLength) {
					bc = readblock(in, this.streamConvertBuf, streamLength);
				} else {
					bc = readblock(in, this.streamConvertBuf);
				}
	
				int lengthLeftToRead = streamLength - bc;
	
				if (escape) {
					if (this.connection.versionMeetsMinimum(4, 1, 0)) {
						bytesOut.write('_');
						bytesOut.write('b');
						bytesOut.write('i');
						bytesOut.write('n');
						bytesOut.write('a');
						bytesOut.write('r');
						bytesOut.write('y');
					}
					
					bytesOut.write('\'');
				}
	
				while (bc > 0) {
					if (escape) {
						escapeblockFast(this.streamConvertBuf, bytesOut, bc);
					} else {
						bytesOut.write(this.streamConvertBuf, 0, bc);
					}
	
					if (useLength) {
						bc = readblock(in, this.streamConvertBuf, lengthLeftToRead);
	
						if (bc > 0) {
							lengthLeftToRead -= bc;
						}
					} else {
						bc = readblock(in, this.streamConvertBuf);
					}
				}
	
				if (escape) {
					bytesOut.write('\'');
				}
	
				return bytesOut.toByteArray();
			} finally {
				if (this.connection.getAutoClosePStmtStreams()) {
					try {
						in.close();
					} catch (IOException ioEx) {
						;
					}
	
					in = null;
				}
			}
		}
	}
	
	/**
	 * Returns this PreparedStatement represented as a string.
	 * 
	 * @return this PreparedStatement represented as a string.
	 */
	public String toString() {
		StringBuffer buf = new StringBuffer();
		buf.append(super.toString());
		buf.append(": "); //$NON-NLS-1$

		try {
			buf.append(asSql());
		} catch (SQLException sqlEx) {
			buf.append("EXCEPTION: " + sqlEx.toString());
		}

		return buf.toString();
	}


	/** 
	 * For calling stored functions, this will be -1 as we don't really count
	 * the first '?' parameter marker, it's only syntax, but JDBC counts it
	 * as #1, otherwise it will return 0 
	 *
	 */
	
	protected int getParameterIndexOffset() {
		return 0;
	}
	
	public void setAsciiStream(int parameterIndex, InputStream x) throws SQLException {
		setAsciiStream(parameterIndex, x, -1);
	}

	public void setAsciiStream(int parameterIndex, InputStream x, long length) throws SQLException {
		setAsciiStream(parameterIndex, x, (int)length);
		this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = Types.CLOB;
	}

	public void setBinaryStream(int parameterIndex, InputStream x) throws SQLException {
		setBinaryStream(parameterIndex, x, -1);
	}

	public void setBinaryStream(int parameterIndex, InputStream x, long length) throws SQLException {
		setBinaryStream(parameterIndex, x, (int)length);	
	}

	public void setBlob(int parameterIndex, InputStream inputStream) throws SQLException {
		setBinaryStream(parameterIndex, inputStream);
	}

	public void setCharacterStream(int parameterIndex, Reader reader) throws SQLException {
		setCharacterStream(parameterIndex, reader, -1);
	}

	public void setCharacterStream(int parameterIndex, Reader reader, long length) throws SQLException {
		setCharacterStream(parameterIndex, reader, (int)length);
		
	}

	public void setClob(int parameterIndex, Reader reader) throws SQLException {
		setCharacterStream(parameterIndex, reader);
		
	}

	public void setClob(int parameterIndex, Reader reader, long length)
			throws SQLException {
		setCharacterStream(parameterIndex, reader, length);
	}
	
	public void setNCharacterStream(int parameterIndex, Reader value) throws SQLException {
		setNCharacterStream(parameterIndex, value, -1);
	}
	
	/**
	 * Set a parameter to a Java String value. The driver converts this to a SQL
	 * VARCHAR or LONGVARCHAR value with introducer _utf8 (depending on the 
	 * arguments size relative to the driver's limits on VARCHARs) when it sends 
	 * it to the database. If charset is set as utf8, this method just call setString.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1...
	 * @param x
	 *            the parameter value
	 * 
	 * @exception SQLException
	 *                if a database access error occurs
	 */
	public void setNString(int parameterIndex, String x) throws SQLException {
		synchronized (checkClosed()) {
		    if (this.charEncoding.equalsIgnoreCase("UTF-8")
		            || this.charEncoding.equalsIgnoreCase("utf8")) {
		        setString(parameterIndex, x);
		        return;
		    }
		
		    // if the passed string is null, then set this column to null
		    if (x == null) {
		        setNull(parameterIndex, java.sql.Types.CHAR); 
		    } else {
		        int stringLength = x.length();
		        // Ignore sql_mode=NO_BACKSLASH_ESCAPES in current implementation.
		
		        // Add introducer _utf8 for NATIONAL CHARACTER
		        StringBuffer buf = new StringBuffer((int) (x.length() * 1.1 + 4));
		        buf.append("_utf8");
		        buf.append('\'');
		
		        //
		        // Note: buf.append(char) is _faster_ than
		        // appending in blocks, because the block
		        // append requires a System.arraycopy()....
		        // go figure...
		        //
		
		        for (int i = 0; i < stringLength; ++i) {
		            char c = x.charAt(i);
		
		            switch (c) {
		            case 0: /* Must be escaped for 'mysql' */
		                buf.append('\\');
		                buf.append('0');
		
		                break;
		
		            case '\n': /* Must be escaped for logs */
		                buf.append('\\');
		                buf.append('n');
		
		                break;
		
		            case '\r':
		                buf.append('\\');
		                buf.append('r');
		
		                break;
		
		            case '\\':
		                buf.append('\\');
		                buf.append('\\');
		
		                break;
		
		            case '\'':
		                buf.append('\\');
		                buf.append('\'');
		
		                break;
		
		            case '"': /* Better safe than sorry */
		                if (this.usingAnsiMode) {
		                    buf.append('\\');
		                }
		
		                buf.append('"');
		
		                break;
		
		            case '\032': /* This gives problems on Win32 */
		                buf.append('\\');
		                buf.append('Z');
		
		                break;
		
		            default:
		                buf.append(c);
		            }
		        }
		
		        buf.append('\'');
		
		        String parameterAsString = buf.toString();
		
		        byte[] parameterAsBytes = null;
		
		        if (!this.isLoadDataQuery) {
		            parameterAsBytes = StringUtils.getBytes(parameterAsString,
		                    this.connection.getCharsetConverter("UTF-8"), "UTF-8", 
		                            this.connection.getServerCharacterEncoding(),
		                            this.connection.parserKnowsUnicode(), getExceptionInterceptor());
		        } else {
		            // Send with platform character encoding
		            parameterAsBytes = StringUtils.getBytes(parameterAsString);
		        }
		
		        setInternal(parameterIndex, parameterAsBytes);
		        
		        this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = -9; /* Types.NVARCHAR */
		    }
		}
	}
	
	/**
	 * JDBC 2.0 When a very large UNICODE value is input to a LONGVARCHAR
	 * parameter, it may be more practical to send it via a java.io.Reader. JDBC
	 * will read the data from the stream as needed, until it reaches
	 * end-of-file. The JDBC driver will do any necessary conversion from
	 * UNICODE to the database char format.
	 * 
	 * <P>
	 * <B>Note:</B> This stream object can either be a standard Java stream
	 * object or your own subclass that implements the standard interface.
	 * </p>
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param reader
	 *            the java reader which contains the UNICODE data
	 * @param length
	 *            the number of characters in the stream
	 * 
	 * @exception SQLException
	 *                if a database-access error occurs.
	 */
	public void setNCharacterStream(int parameterIndex, Reader reader,
			long length) throws SQLException {
		synchronized (checkClosed()) {
		    try {
		        if (reader == null) {
		            setNull(parameterIndex, java.sql.Types.LONGVARCHAR);
		            
		        } else {
		            char[] c = null;
		            int len = 0;
		
		            boolean useLength = this.connection
		                    .getUseStreamLengthsInPrepStmts();
		            
		            // Ignore "clobCharacterEncoding" because utf8 should be used this time.
		
		            if (useLength && (length != -1)) {
		                c = new char[(int) length];  // can't take more than Integer.MAX_VALUE
		
		                int numCharsRead = readFully(reader, c, (int) length); // blocks
		                // until
		                // all
		                // read
		                setNString(parameterIndex, new String(c, 0, numCharsRead));
		
		            } else {
		                c = new char[4096];
		
		                StringBuffer buf = new StringBuffer();
		
		                while ((len = reader.read(c)) != -1) {
		                    buf.append(c, 0, len);
		                }
		
		                setNString(parameterIndex, buf.toString());
		            }
		            
		            this.parameterTypes[parameterIndex - 1 + getParameterIndexOffset()] = 2011; /* Types.NCLOB */
		        }
		    } catch (java.io.IOException ioEx) {
		        throw SQLError.createSQLException(ioEx.toString(),
		                SQLError.SQL_STATE_GENERAL_ERROR, getExceptionInterceptor());
		    }
		}
	}
	
	public void setNClob(int parameterIndex, Reader reader) throws SQLException {
		setNCharacterStream(parameterIndex, reader);		
	}

	/**
	 * JDBC 4.0 Set a NCLOB parameter.
	 * 
	 * @param parameterIndex
	 *            the first parameter is 1, the second is 2, ...
	 * @param reader
	 *            the java reader which contains the UNICODE data
	 * @param length
	 *            the number of characters in the stream
	 * 
	 * @throws SQLException
	 *             if a database error occurs
	 */
	public void setNClob(int parameterIndex, Reader reader, long length)
			throws SQLException {
	    if (reader == null) {
	        setNull(parameterIndex, java.sql.Types.LONGVARCHAR);
	    } else {
	        setNCharacterStream(parameterIndex, reader, length);
	    }
	}
	
	public ParameterBindings getParameterBindings() throws SQLException {
		synchronized (checkClosed()) {
			return new EmulatedPreparedStatementBindings();
		}
	}
	
	class EmulatedPreparedStatementBindings implements ParameterBindings {

		private ResultSetImpl bindingsAsRs;
		private boolean[] parameterIsNull;
		
		EmulatedPreparedStatementBindings() throws SQLException {
			List<ResultSetRow> rows = new ArrayList<ResultSetRow>();
			parameterIsNull = new boolean[parameterCount];
			System
					.arraycopy(isNull, 0, this.parameterIsNull, 0,
							parameterCount);
			byte[][] rowData = new byte[parameterCount][];
			Field[] typeMetadata = new Field[parameterCount];

			for (int i = 0; i < parameterCount; i++) {
				if (batchCommandIndex == -1)
					rowData[i] = getBytesRepresentation(i);
				else
					rowData[i] = getBytesRepresentationForBatch(i, batchCommandIndex);

				int charsetIndex = 0;

				if (parameterTypes[i] == Types.BINARY
						|| parameterTypes[i] == Types.BLOB) {
					charsetIndex = 63;
				} else {
					try {
						String mysqlEncodingName = CharsetMapping
								.getMysqlEncodingForJavaEncoding(connection
										.getEncoding(), connection);
						charsetIndex = CharsetMapping
								.getCharsetIndexForMysqlEncodingName(mysqlEncodingName);
					} catch (SQLException ex) {
						throw ex;
					} catch (RuntimeException ex) {
						SQLException sqlEx = SQLError.createSQLException(ex.toString(), SQLError.SQL_STATE_ILLEGAL_ARGUMENT, null);
						sqlEx.initCause(ex);
						throw sqlEx;
					}
				}

				Field parameterMetadata = new Field(null, "parameter_"
						+ (i + 1), charsetIndex, parameterTypes[i],
						rowData[i].length);
				parameterMetadata.setConnection(connection);
				typeMetadata[i] = parameterMetadata;
			}

			rows.add(new ByteArrayRow(rowData, getExceptionInterceptor()));

			this.bindingsAsRs = new ResultSetImpl(connection.getCatalog(),
					typeMetadata, new RowDataStatic(rows), connection, null);
			this.bindingsAsRs.next();
		}
		
		public Array getArray(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getArray(parameterIndex);
		}

		public InputStream getAsciiStream(int parameterIndex)
				throws SQLException {
			return this.bindingsAsRs.getAsciiStream(parameterIndex);
		}

		public BigDecimal getBigDecimal(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getBigDecimal(parameterIndex);
		}

		public InputStream getBinaryStream(int parameterIndex)
				throws SQLException {
			return this.bindingsAsRs.getBinaryStream(parameterIndex);
		}

		public java.sql.Blob getBlob(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getBlob(parameterIndex);
		}

		public boolean getBoolean(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getBoolean(parameterIndex);
		}

		public byte getByte(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getByte(parameterIndex);
		}

		public byte[] getBytes(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getBytes(parameterIndex);
		}

		public Reader getCharacterStream(int parameterIndex)
				throws SQLException {
			return this.bindingsAsRs.getCharacterStream(parameterIndex);
		}

		public java.sql.Clob getClob(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getClob(parameterIndex);
		}

		public Date getDate(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getDate(parameterIndex);
		}

		public double getDouble(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getDouble(parameterIndex);
		}

		public float getFloat(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getFloat(parameterIndex);
		}

		public int getInt(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getInt(parameterIndex);
		}

		public long getLong(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getLong(parameterIndex);
		}

		public Reader getNCharacterStream(int parameterIndex)
				throws SQLException {
			return this.bindingsAsRs.getCharacterStream(parameterIndex);
		}

		public Reader getNClob(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getCharacterStream(parameterIndex);
		}

		public Object getObject(int parameterIndex) throws SQLException {
			checkBounds(parameterIndex, 0);
			
			if (parameterIsNull[parameterIndex - 1]) {
				return null;
			}
			
			// we can't rely on the default mapping for JDBC's 
			// ResultSet.getObject() for numerics, they're not one-to-one with
			// PreparedStatement.setObject
			
			switch (parameterTypes[parameterIndex - 1]) {
			case Types.TINYINT:
				return Byte.valueOf(getByte(parameterIndex));
			case Types.SMALLINT:
				return Short.valueOf(getShort(parameterIndex));
			case Types.INTEGER:
				return Integer.valueOf(getInt(parameterIndex));
			case Types.BIGINT:
				return Long.valueOf(getLong(parameterIndex));
			case Types.FLOAT:
				return Float.valueOf(getFloat(parameterIndex));
			case Types.DOUBLE: 
				return Double.valueOf(getDouble(parameterIndex));
			default:
				return this.bindingsAsRs.getObject(parameterIndex);
			}
		}

		public Ref getRef(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getRef(parameterIndex);
		}

		public short getShort(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getShort(parameterIndex);
		}

		public String getString(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getString(parameterIndex);
		}

		public Time getTime(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getTime(parameterIndex);
		}

		public Timestamp getTimestamp(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getTimestamp(parameterIndex);
		}

		public URL getURL(int parameterIndex) throws SQLException {
			return this.bindingsAsRs.getURL(parameterIndex);
		}

		public boolean isNull(int parameterIndex) throws SQLException {
			checkBounds(parameterIndex, 0);
			
			return this.parameterIsNull[parameterIndex -1];
		}	
	}
	
	public String getPreparedSql() {
		try {
			synchronized (checkClosed()) {
				if (this.rewrittenBatchSize == 0) {
					return this.originalSql;
				}
				
				try {
					return this.parseInfo.getSqlForBatch(this.parseInfo);
				} catch (UnsupportedEncodingException e) {
					throw new RuntimeException(e);
				}
			}
		} catch (SQLException e) {
			throw new RuntimeException(e); // FIXME: evolve public interface
		}
	}

	public int getUpdateCount() throws SQLException {
		int count = super.getUpdateCount();
		
		if (containsOnDuplicateKeyUpdateInSQL() && 
				this.compensateForOnDuplicateKeyUpdate) {
			if (count == 2 || count == 0) {
				count = 1;
			}
		}
		
		return count;
	}
	
	protected static boolean canRewrite(String sql, boolean isOnDuplicateKeyUpdate, int locationOfOnDuplicateKeyUpdate, int statementStartPos) {
		// Needs to be INSERT, can't have INSERT ... SELECT or
		// INSERT ... ON DUPLICATE KEY UPDATE with an id=LAST_INSERT_ID(...)

		boolean rewritableOdku = true;

		if (isOnDuplicateKeyUpdate) {
			int updateClausePos = StringUtils.indexOfIgnoreCase(
					locationOfOnDuplicateKeyUpdate, sql, " UPDATE ");

			if (updateClausePos != -1) {
				rewritableOdku = StringUtils
						.indexOfIgnoreCaseRespectMarker(updateClausePos,
								sql, "LAST_INSERT_ID", "\"'`", "\"'`",
								false) == -1;
			}
		}

		return StringUtils
				.startsWithIgnoreCaseAndWs(sql, "INSERT",
						statementStartPos)
				&& StringUtils.indexOfIgnoreCaseRespectMarker(
						statementStartPos, sql, "SELECT", "\"'`",
						"\"'`", false) == -1 && rewritableOdku;
	}
}
